The Miracle of Electricity in the Body · About the Author Now writing under the pen-name of HARUN...
Transcript of The Miracle of Electricity in the Body · About the Author Now writing under the pen-name of HARUN...
w w w. h a r u n y a h y a . c o m - w w w. h a r u n y a h y a . n e t
First English Edition published in October 2007
Translated by Carl Nino Rossini
Edited by Tam Mossman
Published by:
GLOBAL PUBLISHING
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All translations from the Qur'an are from The Noble Qur'an: a New Rendering of
its Meaning in English by Hajj Abdalhaqq and Aisha Bewley, published by
Bookwork, Norwich, UK. 1420 CE/1999 AH.
About the AuthorNow writing under the pen-name of HARUN
YAHYA, Adnan Oktar was born in Ankara in 1956. Ha-ving completed his primary and secondary education inAnkara, he studied arts at Istanbul's Mimar Sinan Univer-sity and philosophy at Istanbul University. Since the1980s, he has published many books on political, scien-tific, and faith-related issues. Harun Yahya is well-knownas the author of important works disclosing the impostureof evolutionists, their invalid claims, and the dark liaisonsbetween Darwinism and such bloody ideologies as fascism
and communism. Harun Yahya's works, translated into 57 different lan-
guages, constitute a collection for a total of more than 45,000pages with 30,000 illustrations.
His pen-name is a composite of the names Harun (Aaron)and Yahya (John), in memory of the two esteemed prophets whofought against their peoples' lack of faith. The Prophet's (mayAllah bless him and grant him peace) seal on his books' coversis symbolic and is linked to their contents. It represents theQur'an (the Final Scripture) and Prophet Muhammad (may Allahbless him and grant him peace), last of the prophets. Under theguidance of the Qur'an and the Sunnah (teachings of the Prop-het), the author makes it his purpose to disprove each fundamen-
tal tenet of irreligious ideologies and to have the "lastword," so as to completely silence the objections
raised against religion. He uses the seal of the fi-nal Prophet (may Allah bless him and grant himpeace), who attained ultimate wisdom andmoral perfection, as a sign of his intention tooffer the last word.
All of Harun Yahya's works share onesingle goal: to convey the Qur'an's mes-sage, encourage readers to consider basicfaith-related issues such as Allah's exis-
tence and unity and the Hereafter; andto expose irreligious systems' fee-
ble foundations and pervertedideologies.
Harun Yahya enjoys a wide readership inmany countries, from India to America, England to In-
donesia, Poland to Bosnia, Spain to Brazil, Malaysia to Italy, Fran-ce to Bulgaria and Russia. Some of his books are available in English,
French, German, Spanish, Italian, Portuguese, Urdu, Arabic, Albanian, Chine-se, Swahili, Hausa, Dhivehi (spoken in Mauritius), Russian, Serbo-Croat (Bosni-an), Polish, Malay, Uygur Turkish, Indonesian, Bengali, Danish and Swedish.
Greatly appreciated all around the world, these works have been instru-mental in many people recovering faith in Allah and gaining deeper insights in-to their faith. His books' wisdom and sincerity, together with a distinct style that'seasy to understand, directly affect anyone who reads them. Those who serious-ly consider these books, can no longer advocate atheism or any other pervertedideology or materialistic philosophy, since these books are characterized by rap-id effectiveness, definite results, and irrefutability. Even if they continue to do so,it will be only a sentimental insistence, since these books refute such ideologiesfrom their very foundations. All contemporary movements of denial are now ide-ologically defeated, thanks to the books written by Harun Yahya.
This is no doubt a result of the Qur'an's wisdom and lucidity. The authormodestly intends to serve as a means in humanity's search for Allah's right path.No material gain is sought in the publication of these works.
Those who encourage others to read these books, to open their minds andhearts and guide them to become more devoted servants of Allah, render an in-valuable service.
Meanwhile, it would only be a waste of time and energy to propagate oth-er books that create confusion in people's minds, lead them into ideological cha-os, and that clearly have no strong and precise effects in removing the doubts inpeople's hearts, as also verified from previous experience. It is impossible forbooks devised to emphasize the author's literary power rather than the noblegoal of saving people from loss of faith, to have such a great effect. Those whodoubt this can readily see that the sole aim of Harun Yahya's books is to over-come disbelief and to disseminate the Qur'an's moral values. The success andimpact of this service are manifested in the readers' conviction.
One point should be kept in mind: The main reason for the continuing cru-elty, conflict, and other ordeals endured by the vast majority of people is the ide-ological prevalence of disbelief. This can be ended only with the ideological de-feat of disbelief and by conveying the wonders of creation and Qur'anic moral-ity so that people can live by it. Considering the state of the world today, lead-ing into a downward spiral of violence, corruption and conflict, clearly this serv-ice must be provided speedily and effectively, or it may be too late.
In this effort, the books of Harun Yahya assume a leading role. By the willof Allah, these books will be a means through which people in the twenty-firstcentury will attain the peace, justice, and happiness promised in the Qur'an.
To the Reader
A special chapter is assigned to the collapse of the theory of evolutionbecause this theory constitutes the basis of all anti-spiritual philosophies.Since Darwinism rejects the fact of creation – and therefore, Allah's exis-tence – over the last 140 years it has caused many people to abandon theirfaith or fall into doubt. It is therefore an imperative service, a very importantduty to show everyone that this theory is a deception. Since some readersmay find the chance to read only one of our books, we think it appropriateto devote a chapter to summarize this subject.
All the author's books explain faith-related issues in light of Qur'anicverses, and invite readers to learn Allah's words and to live by them. All thesubjects concerning Allah's verses are explained so as to leave no doubt orroom for questions in the reader's mind. The books' sincere, plain, and flu-ent style ensures that everyone of every age and from every social group caneasily understand them. Thanks to their effective, lucid narrative, they can beread at one sitting. Even those who rigorously reject spirituality are influ-enced by the facts these books document and cannot refute the truthfulnessof their contents.
This and all the other books by the author can be read individually, ordiscussed in a group. Readers eager to profit from the books will find discus-sion very useful, letting them relate their reflections and experiences to oneanother.
In addition, it will be a great service to Islam to contribute to the pub-lication and reading of these books, written solely for the pleasure of Allah.The author's books are all extremely convincing. For this reason, to commu-nicate true religion to others, one of the most effective methods is encourag-ing them to read these books.
We hope the reader will look through the reviews of his other books atthe back of this book. His rich source material on faith-related issues is veryuseful, and a pleasure to read.
In these books, unlike some other books, you will not find the author'spersonal views, explanations based on dubious sources, styles that are unob-servant of the respect and reverence due to sacred subjects, nor hopeless,pessimistic arguments that create doubts in the mind and deviations in theheart.
Introduction: Our Lives Depend on Electricity . . . . . . . .8
Electricity: The Body’s Essential Energy . . . . . . . . . . . .12
The Nervous System: Electricity’s Journey through Our
Bodies . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .20
Neurons: Cells That Produce Electrical Current . . . . . . .27
The Heart: Our Bodies’ Electronic Clock . . . . . . . . . . .64
The Muscular System That Operates on
Electrical Energy . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .91
The Brain: Our Matchless Computer that Interprets
Electrical Signals . . . . . . . . . . . . . . . . . . . . . . . . . . . . .112
Vital Data Carried with Electrical Currents . . . . . . . . .142
The Flawless Construction That Begins with
the Embryo . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .166
Our Bodies’ Electrical System Refutes
the Claims of Evolution . . . . . . . . . . . . . . . . . . . . . . . .178
Conclusion: Allah Pervades All Places . . . . . . . . . . . . . .192
Appendix: The Deception of Evolution . . . . . . . . . . . . .196
ithout electricity, what would your life be like? You would
have to find a way of ascending 15 floors with no elevator
and preventing food in your refrigerator from spoiling. You could not
watch television, warm your dinner up in the microwave, listen to your fa-
vorite music on the stereo, quickly dry your hair, cool down your bedroom
by means of air conditioning, brighten that room with the touch of a switch
or to operate essential machines like your dishwasher, washing machine
and clothes drier. At night, your home would be dark and unsafe, and you
would live deprived of the many time-saving technologies such as electric
heaters, kettles, table lamps, videos and computers—which all make our
life so much easier. On a larger scale, traffic, communications, transport, se-
curity systems, workplaces, water distribution, energy production, pub-
lishing and the press, all depend on electricity as well.
During the summer of 2003, a power blackout in the USA, which af-
fected an area extending from Detroit to Chicago, was a striking example
of electricity’s vital importance. Although short-lived, it was reported as a
catastrophe. Newspapers ran headlines like “Life Comes to a Standstill.”
In the absence of electricity, traffic lights, elevators, public transport,
and computers all became inoperative. People were unable to go
to work, go shopping, or even communicate with one
another.
The importance of electricity, whose interruption can bring life to a
complete standstill, goes far beyond this. Just as a city’s functioning de-
pends on the continuation of the established order, so there is a need for
electricity in the human body, in processes analogous to energy production,
communications, security, maintenance, and repair. In short, life would be
impossible in the absence of our bodies’ electrical system, which is even
more essential than the power grid in cities.
Few who make use of electricity reflect on the fact that, just like the appli-
ances they depend on, their bodies could not function without electricity. The
fact is, however, that the human body has been equipped with a flawless elec-
tricity network, along with the presence of intelligent systems that contain the
most complex information and know-how to benefit from electrical energy.
Indeed, scientists employ terms commonly used in electronics to de-
scribe the body’s nervous system: “generate,” “circuit,” “current,” “resist-
ance,” “voltage,” “insulation,” “charge,” and so forth. It is next to impossi-
ble to describe the system without using these terms. The fact that principles
necessary for the functioning of technology, discovered in only the last two
centuries, have existed in the human body ever since it was first created, is
a clear indication of the superior knowledge of Allah (God). The details set
out in this book constitute just a few examples of His infinite knowledge that
we have grown able to comprehend.
INTELLIGENT DESIGN—IN OTHER WORDS, CREATION
In Order to Create, Allah Has No Need to Plan
It’s important to properly understand the word “design.” If Allah has cre-
ated a flawless design that does not mean that He first conceived a plan and
then followed it. Allah, the Lord of the Earth and the heavens, needs no “de-
signs” in order to bring anything into existence. Allah is exalted above all such
deficiencies. Both His planning and His creation take place at the same instant.
Whenever Allah wills a thing to come about, it is enough for Him just
to say, “Be!” As verses of the Qur’an tell us:
His command when He desires a thing is just to say to it, “Be!” and
it is. (Surah Ya Sin: 82)
[Allah is] the Originator of the heavens and Earth. When He decides
on something, He just says to it, “Be!” and it is. (Surat al-Baqara: 117)
Harun Yahya
Adnan Oktar
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THE MIRACLE OF ELECTRICITY IN THE BODY10
Harun Yahya
Adnan Oktar
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lectricity is everywhere. The nucleus of every atom—the ba-
sis of everything you can see and touch—consists of particles
known as protons and neutrons. Around that nucleus there are
electrons that revolve around it constantly at very high speeds.
Protons possess a positive electrical charge; electrons a negative
one. Under normal conditions, an atom has an equal number of elec-
trons and protons; and since the positive and negative electrical charges
balance each other, the atom is said to be neutrally charged. When that
balance is upset—for example, when an atom acquires a surplus elec-
tron—it becomes negatively charged; and on the other hand, should the
atom lose an electron, it will become positively charged. Under appro-
priate conditions, such imbalances of electrical charge initiate a flow of
electrons, which is referred to as electricity. In short, electricity is a form
of energy created by the movement of electrons.
Without this electrical energy, our bodies would be unable to
function. Electricity is of vital importance to the survival of ev-
ery one of us, as well as for our ability to speak,
move our muscles, and sense the world
around us. In the absence of electrical flow, vital functions come to a halt,
and the individual will be crippled or die. All members of the animal king-
dom—human beings included—communicate, move about, and employ
their five senses by means of the electricity generated within their bodies.
Even if you have been unaware of it before now, even before you were born
into the world, your life depended on mechanisms that in turn, depend on
electricity, and you became acquainted with your surroundings and grew
and developed by means of these mechanisms.
That is the reason why electric shocks are admin-
istered to cardiac patients whose hearts have
stopped beating. In such an extreme situ-
ation, no drugs or vitamins can be ad-
ministered to cure the patient.
Although there are a great many sub-
stances that are beneficial to the body,
the heart first of all requires electricity
in order to function. And so, when the
body’s electrical system is damaged for any
reason, nothing can replace it. It must be re-
started, or tissues will begin to die.
Once science realized the importance
of electricity in living bodies, uni-
versities established special
departments solely for
the purpose of research-
Harun Yahya 13
ing this subject,
and scientists wrote a great many research articles
and books about it. Today, intense research is still being carried out into the
bioelectric systems of living things. Rodolfo Llinas, Professor of
Neuroscience and Chairman of the department of Physiology &
Neuroscience at the New York University Medical Center, has stated that
there is electricity in all living things that move, and continued:
Electricity is the only thing that’s fast enough to carry our ability that
make us who we are . . . Our thoughts, our ability to move, see, dream, all
of that is fundamentally driven and organized by electrical pulses. It’s al-
most like what happens in a computer, but far more beautiful and compli-
cated.1
14
The Electrical Order in our Bodies
Your body is like a machine that requires regular maintenance every
day and works through electricity. When you move a muscle, electrical dis-
charges take place. The signals that carry commands from the brain through
nerves are electrical, as are all the sensory signals that move from the body
towards the brain. Cell division and heartbeat are electrical in nature. In fact,
all chemical changes are based on electricity, through electrons being trans-
ferred, shared or altered at the molecular level. There are practically no non-
electrical systems in the human body. Even when you lie down to rest,
complex duties beyond your control continue to be performed re-
garding energy production: your heartbeat, the oxygen
reaching your lungs, and more cellular activities than
can ever be numbered.
In order to survive, in short, the human body
employs electrochemical systems. That part of the
Harun Yahya 15
THE MIRACLE OF ELECTRICITY IN THE BODY
body that depends on electricity the most is the nervous system. The body
keeps producing electricity as long as it suffers no accident or physical dis-
ability, and by the electrical energy it produces, performs its activities day
and night. The electrical systems in living things possess many more advan-
tages than the electrical systems in mechanical devices. The most important
of these advantages is biological systems’ ability to repair themselves.
Should you cut your finger, for instance, the wound will heal itself within a
short time. Again there is an electrical sequence behind the systems that per-
mit this to happen. This feature does not exist in—nor can it be replicated
by—any artificial machine.
Another advantage of the electrical system within your body is its mul-
ti-faceted activity. Circulation, the immune system, motion, communication,
digestion, excretion—all these functions take place thanks to the nervous
system. Man-made electrical
devices, on the other hand, are
generally restricted to one or at
most, several similar func-
tions: such as air-conditioning,
heating, mixing, or sweep-
ing—but despite this, they
consume high levels of energy.
The electrical energy used by
the body—despite its being
used to operate so many differ-
ent systems—is at exceedingly
low levels.
In the electrical equip-
ment we use in everyday life,
the strength of the electricity
used—that is, the voltage lev-
el—needs to be kept at a spe-
cific level. However, these lev-
els are regulated not by the
16
machine itself, but once again, adjusted by special, man-made devices.
Adaptors and voltage regulators are used to ensure a balanced flow.
Otherwise, the machine’s entire operations will be impaired.
In the human body, however, all these adjustments are carried out
without your even being aware of them.
In addition, the production and use of electricity in our bodies goes on
non-stop. Even when the body is resting, the flow of minute electrical sig-
nals continues constantly, in intervals as short as 1/1000 of a second.
Electrical devices generally have a life span of 10 to 20 years, and usually
need to be repaired and have new parts installed long before that. Yet apart
from under very exceptional circumstances, the human body’s electrical sys-
tem functions for an entire lifetime, never resting and never giving out.
The body’s various systems, and even single nerve cells—none of
which can be replicated using human intellect and accumulated knowl-
edge—are of such complexity as to prove that their existence cannot be the
work of chance. In the absence of this electrical system, whose details we
shall be examining throughout this book, the other systems in the body and
its organs could not function so flawlessly. Therefore, there can be no ques-
tion of “stage by stage” development, one of the main claims of the theory
of evolution, which maintains that living things came into being through the
mechanism of chance.
Despite being an evolutionist, the biologist Hoimar von Ditfurth de-
scribes the impossibility of claims of chance in his book The Secret Night of
the Dinosaurs:
The statistical impossibility of the living structures in question forming by
chance is a popular and highly contemporary example of the current point
of scientific development. Indeed, looking at the extraordinary properties
of the formation of a single protein molecule that undertakes biological
functions, it does appear impossible to explain the combining of many at-
oms, all in the right location and the right order and with all the correct
electrical and mechanical features, as the result of chance.2
The human body produces its own electricity. In order for any function
to take place in the body, a signal must be sent to the relevant organ or tis-
Harun Yahya
Adnan Oktar
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THE MIRACLE OF ELECTRICITY IN THE BODY18
Almost no process in the human bodytakes place without electricity. Evenwhen you are resting, the activities inyour body—your heartbeat, the pas-sage of oxygen into your lungs, andinnumerable cellular activities—con-tinue uninterrupted as a blessing fromour Lord.
THE ELECTRICAL ORDER IN OUR BODIES
IS A BLESSING FROM OUR LORD
Brain
Heart
Kidney
Bone
Lungs
Skin
sue. If we are to survive, therefore, there can be no question of chance occur-
rences anywhere in our bodies. That is because it is impossible to account in
terms of chance for the way that millions of separate factors work together
at exactly the right way, levels, with perfect timing, flawlessly and thorough-
ly, constantly without tiring and with superb coordination over 60 to 70
years. Were each organ to act independently—were it to delay the com-
mands reaching it or to give haphazard responses to them; were it to grow
and function only when it chose to—then we would be unable to survive
even for a moment in the chaotic environment that would result. Moreover,
just a brief delay or for just a few cells to create confusion would be enough
to let such a chaotic environment arise. Indeed, evolutionists, with their
claims regarding chance, are unable to conceal their amazement in the face
of the immaculate order they encounter. They have no reply to give when
asked how these organs and systems emerged and appeared within the
body, in just the right locations and just the right form and functions. Yet the
answer is manifest: it is Allah, the Creator of all
the worlds, Who has flawlessly brought
them into being:
He Who has created all things in
the best possible way. He com-
menced the creation of man
from clay; then produced his
seed from an extract of base
fluid! Then (He) formed him
and breathed His Spirit into
him and gave you hearing,
sight and hearts. What little
thanks you show? (Surat as-
Sajda: 7-9)
Harun Yahya
Adnan Oktar
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The production of electricity and electrical ex-change of information in the human body con-tinue even when we are asleep. This is one ofthe examples of our Lord’s infinite mercy.
uman beings have a central nervous system, the most
complex biological system known. Billions of nerve cells, or
neurons, and the trillions of connections among them constitute the
nervous system’s main structure. The central nervous system consists
of more than 100 billion neurons. In addition, there are up to ten times
as many helper cells, known as neuroglia.
Our bodies are equipped with bio-electrical cables, known as
nerves, millions of meters (feet) in length. Information is transported
along these cables at a speed approaching that of light. The way nerves
extend to every point in our bodies, possessing an astonishing order,
and the way commands and information are carried by means of these
cables, are miraculous. Despite the intensity of the data flow in-
volved, no confusion ever occurs, and every message is
transmitted scrupulously to its destination.
Harun Yahya
Adnan Oktar
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Also surprising is that no matter how different the sensory informa-
tion, being forwarded—concerning the keyboard you touch, the taste of the
sweets you eat, the smell of newly baked bread, the sound of the telephone
or the sight of daylight entering your eyes—the same communications sys-
tem is employed. All information regarding our senses or thoughts travels
inside nerve extensions, encoded in the form of electrical stimuli, in a wave
state. Although these many electrical signals constantly coming and going
throughout the body are all identical, they reveal to us a world full of myr-
iad colors and rich details.3
Our nerves also permit us to obtain information about the world
around us, to react quickly to changes, and also let various regions of the
body function as a single entity. They also transmit orders from the brain,
the body’s command center—so that essentially, nerves are highways that
transmit the data that keeps our bodies alive and healthy. Departing from
the brain and spinal column, they extend to all parts of the body including
the skin, muscles, sensory organs, even the teeth and the interior of the
bones.
If the nerves extended to everywhere in your body apart from your
right hand, what would happen? First off, your hand would have no sensa-
tions. You would not feel a knife that cut your finger, and would be unable
to perform any tasks for which you normally use that hand. You could not
have your fingers grip a cup, hold a pencil, open a door, or comb your hair.
In short, your hand would be just a quantity of living flesh and bone.
But the existence of nerves alone is not sufficient for a healthy life. They
must also have to reach all parts of the body and be able to communicate
with one another. It is impossible for how the nerves interpenetrate the en-
tire body and control all its flawless systems to have come about simply by
chance.
Despite the many opportunities provided by present-day technologies,
scientists have been unable to produce anything resembling the cell.
Evolutionists maintain that a cell, of its own accord, flawlessly fulfills re-
sponsibilities that human beings are unable to replicate. But that claim is in-
compatible with logic and reason. Clearly, the nervous system enfolds and
THE MIRACLE OF ELECTRICITY IN THE BODY
manages our entire bodies and even engages in conscious activities.
However, this superior consciousness that astonishes scientists cannot be-
long to cells—mere collections of organelles and their unconscious atoms.
This consciousness belongs to Allah, the Maker of all. (Surat al-Baqara: 54)
22
Brain stem
Cerebellum
Thalamus
Main nervenodes (re-
sponsible forcomplex
movements)
White matter
Grey matter
Motor cortex
Motor nerve cell
One reason why you can use your hands to do things is that your nervous sys-tem has a flawless structure. Even picking up a marble is actually a very complexmovement. Delicate adjustments are required, such as how far the fingers need tobe opened and how much force should be applied. If the nerves did not reachyour hand, or if there were no link between the nerves and the brain, your handwould be a merely an assemblage of flesh and bone.
Purple: The cortex ofthe brain sends messa-ges for the muscles togo into action.
Blue: The sensory cellsthat direct movement inthe muscle send sig-nals to the cerebellum.
Red: The cerebellumsends signals to thecortex, by way of thethalamus, in order forthe movement to takeplace.
Green: The cerebellumsends messages direct-ly to the muscles byway of the spinal cord.
Harun Yahya 23
THE MIRACLE OF ELECTRICITY IN THE BODY
Nerves: Our Bodies’ Electrical Cables
Electricity cables consist of two main components: Inside, there’s gen-
erally a copper wire through which the electric current passes; and outside
and surrounding it, there is some kind of insulating material that prevents
electrons escaping their intended path, in the process called short circuiting.
Nerve cells possess exactly the same design as an electrical cable:
Inside are very fine fibers, through which the body’s electrical current pass-
es. Surrounding them is an insulating tissue known as the Schwann sheath,
which prevents neurological short circuiting. When the sheath is damaged
for any reason—by a virus for example—then the nerve’s current is dis-
persed throughout the tissues, resulting in partial or total paralysis, in much
the same way that an electrical cable loses its function when its rubber cas-
ing splits or burns.
All nerve fibers have electrical charges. The electricity outside the fiber
is positively charged and the inside is negatively charged. The moment a
nerve is touched an electrical impulse is given off. Positively charged ions
enter the nerve sheath while negative ions move to the exterior of the nerve
fiber, thus setting up an electrical current. As a result, the relevant muscle or
organ functions. Once the electrical current has been transmitted, every-
thing returns to its normal state. Positively charged ions again flow to the
outside of the nerve fiber, and negatively charged ions return inside. In this
way, the nerve fiber is readied for another stimulus or impulse.
Thanks to this constantly repeated process, the activities continue that
keep us alive. However, this procedure is a great deal more detailed and
possesses a far more complex design than is summarized here. The more the
imaging power of our electron microscopes increases, the more complexity
emerges to amaze scientists. The design of the cells that constitute the nerves
is full of astonishing details that display the infinite might of our Lord:
The kingdom of the heavens and the Earth and everything in them
belongs to Allah. He has power over all things. (Surat al-Ma’ida:120)
24
2
25
Our bodies’ electrical system con-sists of three regions:1) The brain, which functions like aperfect computer,2) The spinal cord, which serveslike a bundle of electrical cables,one end of which goes to the brain,and,3) The nerves, which function likeelectrical wires and establish con-nections between the spinal cordand the whole body.
3
1
Nerves depart from the brain and spi-nal cord and extend to all parts of thebody, including the skin, muscles,sense organs, even the teeth and bonemarrow. In short, the nerves are likeroads that carry the body’s information.Nerves permit us to obtain informationabout the world around us, and enabledifferent parts of the body to functionas an integral whole. They also under-take the transmission of commandsfrom the brain, the body’s commandcenter.This system, which functions withoutour being aware of it, is one of the ex-amples of our Almighty Lord’s mercyon human beings.
THE MIRACLE OF ELECTRICITY IN THE BODY26
Small nervebundle
Epineurium (tissue surround-ing nerve-fiber bundles)
Ganglion (clump of nerve cells)
Perineurium (nerve-fi-ber bundle sheath)
Axon
Myelin sheath
The structure of a nerve fiber is simi-lar to like of an electrical cable. Thenerves inside that allow the transmis-sion of electricity, and the insulatingsheath on the outside, are both exam-ples of creation.
27
erves interpenetrating our bodies consist of hundreds, and
sometimes, thousands of nerve cells called “neurons.” An
average neuron is 10 microns wide4. (One micron is equal to
1/1000 millimeter, which equals 0.000039 of an inch.) Were we able to
line up the 100 billion neurons in a human brain, their line would ex-
tend for a full 100 kilometers (62 miles). But this line would be only 10
microns wide, invisible to the naked eye. You can envisage the minute
size of neurons with the following comparison: 50 neurons would fit
into a period at the end of this sentence5 and 30,000 on the head of a
pin.6
Neurons have been created to carry the electrical impulses
throughout the body. The task of most neurons is to receive signals
from neighboring neurons and then to transmit these on to another
adjacent neuron or to the ultimate target cell. Neurons commu-
nicate with one another, carrying out thousands
of these processes every second.
We can compare a neuron to an electrical switch that goes on or off, de-
pending on circumstances. On its own, a neuron constitutes only a very
small part of the interconnected circuits of the nervous system. But in
the absence of these tiny electrical circuits, life is impossible.
Professor Werner Gitt of the German Federal Institute of Physics
and Technology describes this giant complex squeezed into this
small area:
If it were possible to describe [the nervous system] as a cir-
cuit diagram, [with each neuron] represented by a single pin-
head, such a circuit diagram would require an area of sever-
al kilometers. . . . [It would be] several hundred times more
complex than the entire global telephone network. 7
As he emphasizes, the nervous system in our bodies functions
like a very complex data network, which depends on all the neurons
performing their duties to perfection. With the rhythmic, coordinated mo-
tion of the impulses from one neuron to the next, each organ, muscle, joint,
system and cell performs its functions without any conscious command or
supervision from you. Moreover, although millions of cells die in your body
every day, these are expelled from your body in a way that causes no dis-
ruption to its balances and functions. Again by means of an impeccable sys-
tem, new cells replace the ones that have died. In this, there is not the slight-
est error in terms of timing or measurement. We have no control over these
activities, and continue to enjoy healthy lives so long as none of them suffer
any disruption.
28
Direction of nerveimpulse
Axon
Axon
Schwanncell
Nodes ofRanvier
Meissner’scorpuscles
Skin
Adnan Oktar
29
If you tread on a
piece of broken glass while
walking barefoot, only a
few thousandths of a sec-
ond elapse between the glass
entering your foot and your
brain perceiving the pain.
During that interval—so brief
that it is impossible for you to
be aware of it—a message is
sent from your foot to
your brain, a rapid
and flawless commu-
nication carried out
by neurons. In this
way, you lift your foot off
the ground before it can be injured any further.
It is completely beyond the bounds of possibility for such a system to
have developed spontaneously. However, certain circles who blindly sup-
port the theory of evolution seek to account for this perfect order in the hu-
man body in terms of random coincidences. We can show just how mean-
ingless these claims are with the following example:
The time elapsed be-tween your stepping ona nail and your brainperceiving pain is only afew thousandths of asecond. During that in-terval, of which you areunaware, a message issent from the foot to thebrain. You thus withdrawyour foot before furtherdamage is done.
Thalamus
Direction ofnerve impulse
Cell body
Spinal cord
Cross-section ofspinal cord
BrainSensory cortex
Dir
ectio
nof
nerv
eim
puls
e
Look at the electrical devices around you, each of
which has been specially designed with plastic and elec-
tronic equipment, buttons, cables and other com-
ponents for a specific objective that will make
your life easier. Dozens of engineers have worked
behind the scenes for a single hairdryer, along
with the use of various plants, several branches of
science and the designs of experts in the field. The
result was a device that’s functional and easy to use. No rational person
could logically suggest that such a device came into being as the result of
chance.
Your body, however, possesses an electrical system far more complex
than that in any electrical device. The odds
against such a system coming into being by
chance are therefore still more infini-
tesimally remote.
30 THE MIRACLE OF ELECTRICITY IN THE BODY
Harun Yahya
Adnan Oktar
31
Neurons Specially Created to Carry SignalsAll neurons contain a nucleus, short fibers known as dendrites that car-
ry electrical signals, and a long fiber known as axon that carries signals for
long distances. The nerve cell, which can be as fine as silk thread, can be as
long as roughly 1 meter (3,2 feet). Signals sometimes must travel even great-
er distances along the nerves.8
It’s fair to liken the body of the neuron to a telephone switchboard
equipped with advanced technology. However, with its cellular dimensions
varying between 0.004 and 0.1 millimeters (0.0001575 and 0.003937 of an
inch) and wide-ranging communication mechanisms, this miniaturized tel-
ephone exchange has no equivalent in the modern world. In contrast to oth-
er cells, neurons contain both dendrites and axons, which give rise to lines
of communication that permit the cell to pass its signals along to others.
Dendrites receive messages, and axons send them.
A neuron can send an impulse in as little as 1/1,000 of a second. This
means that a single neuron can transmit 1,000 nerve signals a second. In gen-
eral, however, transmission may range between 10 and 500 impulses per sec-
ond.9 The largest and thickest nerve fibers transmit electricity at a speed of 152
meters (500 feet) per second, and the thinnest of them at about 1 meter (3 feet)
a second.10 Information is transmitted without impairment inside the neuron
and forwarded to the correct destination in a most astonishing way. However,
the speed at which these phenomena take place is no less astonishing.
Imagine that all the complex systems in your body exist, but that the
data transmission in your nerve cells is slower than it actually is: Only hours
after the event could you appreciate the beauty of a view, the taste of the
food you ate, or that something you touched was hot enough to burn your
fingers. You would need dozens of minutes to reply to a question put to you.
Crossing from one side of the street to another, or driving, lifting a fork to
your mouth, commenting on an article of clothing you like, and countless
other forms of behavior could lengthen into situations seriously incompati-
ble with your lifestyle, or which even endangered your life. Lapses in tim-
ing between an event you perceive and being able to speak might make life
untenable. Furthermore, this example only considers actions that we under-
32
take voluntarily. The body also performs activities outside our conscious
control, such as the beating of the heart. Any slowing in the signals regard-
ing these functions would have fatal consequences. However, through the
blessing of our Lord, the Compassionate and Merciful, everything in the hu-
man body is just as it needs to be.
In one verse of the Qur’an it is revealed that Allah has created all things
in their proper measure:
Allah knows what every female bears and every shrinking of the
womb and every swelling. Everything has its measure with Him.
(Surat ar-Rad: 8)
Processes Squeezed into a Thousandth of a SecondEverything we see, hear and touch turns into electrical signals that move betweenthe brain and the body by way of nerve cells. With our Lord’s knowledge, theseprocesses take place in less than a thousandth of a second.
Harun Yahya 33
Dendrites and Axons: The Cables
That Surround Our Bodies
Dendrites consist of a large number of short protrusions and are com-
parable to the roots of the cell. With their branched structure, dendrites re-
ceive reports arriving from other neurons and transmit these to the cell
body. Put another way, dendrites are like electrical cables, transmitting sig-
nals entering the cell. Every neuron possesses up to 100,000 branching den-
drites that carry incoming messages to the cell.11
The axons generally bring information from sense receptors to the
brain and spinal cord or transmit commands back to the muscles, glands
and internal organs. An axon is a long fiber, generally consisting of a single
protrusion, that emerges from the cell body and along which signals are
sent. Individual axons are microscopic in diameter - typically about one mi-
crometre across (1?m) - but may extend to macroscopic (>1mm) lengths. The
longest axons in the human body, for example, are those of the sciatic nerve,
which run from the base of the spine to the big toe of each foot. These sin-
gle-cell fibers of the sciatic nerve may extend a meter or even longer.12
Another striking feature is that a single axon is capable of dividing it-
self into as many as 10,000 terminals, or end sections. In this way, each ter-
minal can be connected to a different neuron and can permit more than one
region to be stimulated at the same time. Since any one single neuron can re-
ceive signals from more than 1,000 other neurons, it can carry a million dif-
ferent pieces of information at the same time13 —an incredible figure. This
THE MIRACLE OF ELECTRICITY IN THE BODY34
ability plays a very important role in situations wherein more than one mus-
cle fiber needs to be activated. With these structures, each nerve cell appears
like a dense network consisting of long chains.
If the nerves did not have such a structure, then every signal would
have to be transmitted in turn. That would slow and seriously impair the
rapid, complex transfer of signals in the body.
We can compare the axon terminals at the end of dendrites to plugs fit-
ting into sockets. Thus, in the same way that an electrical current flows from
the socket to the plug, the electrical signal continues on between two nerve
cells. These connection points at the axons’ ends are attached to receptors on
other cells and permit information to transmit between cells. In the way they
allow communication between different points in the nervous system, axons
are comparable to the links connecting one part of an electrical circuit to an-
other.
Each of these features is essential for our bodies’ communication and
coordination. Our ability to lead healthy lives and our very existence de-
pend on all these details functioning flawlessly. One of the aims behind their
creation is to exhibit the knowledge and artistry of our Lord. Ours is the re-
sponsibility to appreciate the greatness of our Lord and give proper thanks:
. . . Allah pours out His favour on mankind but most people do not
show thanks. That is Allah, your Lord, the Creator of everything.
There is no god but Him—so how have you been perverted? (Surah
Ghafir: 61-62)
The Role of the Synapses in Data
Transmission
The gaps or spaces between the axons of two neurons are known as
synapses. Communication between the two neurons is established and
maintained at these terminal connection points. In the same way that a tele-
phone switchboard permits a large number of callers to talk to one another
at the same time, so a neuron can communicate with many other neurons by
means of these synapses. Each neuron has around tens of thousands of syn-
Harun Yahya 35
Synapses: Our Bodies’ Electric FusesNerve cells are connected to one another by special electrical circuits known as syn-apses, which prevent the body’s electrical system—the brain, spinal cord andnerves—from being damaged. More than 95% of your body’s physiological processesare carried out automatically. We do not tell our stomach, liver, kidneys or lungs tocarry out their functions, nor do we command our heart to beat regularly. Our electri-cal systems depend on that system being protected since it performs a great manyfunctions, and through the mercy of Allah this protection in our bodies operates flaw-lessly
Dendrites can be compared to plugs inserted into the axon terminals.In the same way that the electrical current continues flowing from thesocket to the plug, the electrical signal between two nerve cells con-tinues on its way.
Mitochondria
Neurotransmittermolecules
Synapticgap
Cell membranechannels
Receptorcells
Cell membrane
Synaptic node
Axon termi-nal fiber
Nerve threads
Micro-tu-bules
Synapticsacs
THE MIRACLE OF ELECTRICITY IN THE BODY
apses,14 meaning that a neuron can establish connections with tens of thou-
sands of separate nerve cells. Even assuming that hundreds of millions of
telephone conversations could be transmitted over a single telephone net-
work at the same time, this capacity still lags far behind that of the human
brain, which can effect 1 quadrillion (1,000,000,000,000,000) communications
by means of the synapse inside it.15 Consider how hard-pressed one human
being is when working on a 10-line telephone switchboard! You can better
understand how a single nerve cell simultaneously carrying out 10,000 con-
nections is evidence of an extraordinary creation.
A neuron collects incoming signals, decides if the total input message
is strong enough, and permits its passage to another neuron.16 Synapses, the
connection points between two neurons, control the distribution of this com-
munication by determining the direction of the signals transmitted.17
Triggering or inhibiting signals arrive from various regions of the nervous
system, sometimes opening synapses and other times, closing them. In this
way, synapses halt weak signals and permit strong ones to pass.
At the same time, they also provide a selective function by choosing
and magnifying some of the weaker signals and passing them on—not in
one single direction but in many. The way that neurons collect signals and
decide to transmit them might lead you to assume they have something re-
sembling conscious human intellect. However, this is accomplished merely
by very specially arranged groups of molecules, with no ability to think, nor
any organs that permit them to perceive. The ability of a group of molecules
flawlessly discharging such vitally important responsibilities is a sign of
Allah’s supervision and eternal dominion over living things.
It is Allah, Lord of the Worlds, Who causes these impeccable processes
to be carried out:
I have put my trust in Allah, my Lord and your Lord. There is no
creature He does not hold by the forelock. My Lord is on a Straight
Path. (Surah Hud: 56)
36
Harun Yahya
Adnan Oktar
37
Synapses and Constant Electrical
Current
Synapses, or the gaps between two nerve cells, are so small that they
become visible only when magnified thousands of times. Yet this gap be-
tween two cells is also wide enough to prevent any electrical impulse’s leap-
ing from one cell to another. Despite the billions of neurons in the nervous
system, they never touch each other in any way. Therefore, from the point of
view of the body’s electrical system, every synapse is an obstacle that must
be overcome. Yet although they are separated from one another, no lapse is
ever experienced in the body’s nerve network, because the signals transmit-
ted electrically along the neurons continue across these spaces between
them in chemical form.
Assume that an electrical signal—traveling at 354 kilometers (220
miles) per hour—reaches the end of the axon.18 Where will this stimulus go?
How will it get past the synapse to continue on its way? This situation is
analogous to coming to a river as you drive along in a car. At this point one
has to change vehicles. In the same way that you get out of the car to cross
the river in a boat, the electrical signal continues on its journey in another
form, that is, in chemical form. Thanks to this chemical communication in
the synapses, electrical signals can continue their journeys without interrup-
tion.
When a signal reaches the axon terminal, it gives rise to a so-called
“message packet” that jumps the small synapse between two neurons and
carries chemicals to set the receptor nerves in the neighboring neuron den-
drites into action. These messenger molecules, known as neurotransmitters,
cross the gap and set the second neuron into action in less than a millisec-
ond.19 Neurotransmitters are produced in the body of the nerve cell, are car-
ried along the axon and stored in synaptic vesicles in the axon terminals.
Each vesicle contains some 5,000 transmitter molecules,20 which chemicals
function as trigger or preventive signals. They either impel neurons to pro-
duce an electrical impulse, or else prevent them from firing.21
Recent research has shown that neurons can contain and release some
THE MIRACLE OF ELECTRICITY IN THE BODY38
Electrical signals travelthroughout the nervous sys-tem, carrying messagesfrom one location to anoth-er. Electrical signals have tojump the gaps, or synapsesbetween nerve cells, in or-der to proceed on their way.In some electrical machines,electricity jumps such smallgaps in the form of a spark.The electrical signals in thebody pass over the gap inthe from of a chemical sig-nal known as a neurotrans-mitter.
The neuron transmittinga signal and the neuronreceiving it meet at thesynapse point. A partic-ular electrical signalsets into action themessengers at the axonterminal of the transmit-ter nerve cell. Sacs fullof chemical messengersjoin with the cell mem-brane and release mole-cules into the synapsegap, transmitting themessage to receptorson the neuron’s mem-brane. Different mes-senger molecules es-tablish connectionswith different receptors.The harmony amongtransmitter and receptorneurons is a clear signof intelligent creation.
Electrical synapse Chemical synapse
Synapse
Neuron
Connectiongap betweencells
Na+ions
Na+channel
Mitochondria
Synapticgap
Sinaptik boflluk
Synaptic sac
Synapticsac
Open receptor
Neurotransmitter
Neurotransmitter
Direction ofimpulse
In order for us to enjoyhealthy lives, these innu-merable connections inthe brain must be estab-lished without the slight-est deficiency. Any breakor error in connectionsmay lead to a wide rangeof ailments.
Harun Yahya
Adnan Oktar
39
100 different types of neurotransmitters.22 In other words, each neuron is
like a chemical factory producing messengers to be employed in communi-
cations. Some neurotransmitters are employed in the triggering of electrical
signals, others in the halting of electrical signals, and still others in accelera-
tion or deceleration, in frequency-changing and energy storage. Each neu-
ron releases only one or at most, a few different varieties of these neuro-
transmitters. When a neurotransmitter emerges, it crosses the synapse and
the protein receptor on the receptive neuron’s cell membrane sets a protein
into motion. At this point, synapses can be compared to a highway by which
these chemical messengers are transmitted between nerve cells. The dis-
tance between them is approximately 0.00003 of a millimeter (118.10-8 of an
inch).23 Although this distance is very small, it is still a gap that the electri-
cal signals must cross.
The amount of neurotransmitter released is much greater than what’s
needed for attachment to the target dendrite. However, as in every other de-
tail in the human body, this excess is an example of very wise creation. The
extra neurotransmitters remaining in the synapse block the nerve to prevent
the sending of excess signals. If these surplus molecules did not block the
nerve, then the time needed for the signal to come to a stop would lengthen
into seconds, even minutes. However, the signal transmission takes place in
just a fraction of a second. The excess neurotransmitters are absorbed by the
axon terminal, and the remainder decomposed by enzymes.24 Just as in a re-
lay race, electrical information is transmitted from cell to cell by means of
neurotransmitters that serve as bridges. In this way, the flow of information
continues uninterrupted, despite the gaps between the cell extensions.
Yet how do these two independent systems know that they must act to-
gether to perform this vital function? In addition, how is that there is no
omission or delay in the information transmitted, and for data to be trans-
mitted perfectly to its appropriate destination?
Each of these systems is no doubt a reflection of the knowledge and art-
istry of Allah. It flies in the face of logic and reason to expect these miracu-
lous systems to have come into being spontaneously, or to maintain that un-
conscious cells engage in purposeful activities as the work of chance.
Until recently it was thought that communication between neurons wasestablished at fixed points. Professor Eric R. Kandel won the 2000Nobel Prize in Medicine for his discovery that the shape of the synap-ses changes according to the structure of the chemical messengers. Hefound that synapses possess a mechanism that regulates their forms de-pending on the strength of the signal. For example, in the case of a powerfulsignal, the synapse grows and permits this signal to be transmitted to othercells with no loss of strength, and in the most effective manner. The discovery of this ability in the synapses was made through experimentson marine crustaceans. Professor Kandel states that the nervous system inhuman beings is too complex to allow the possibility of research.1 One of hisstatements refers to the complexity of the nervous system in these terms:
The key principle that guides our work is that the mind is a set of opera-tions carried out by the brain, an astonishingly complex computational de-vice that constructs our perception of the external world, fixes our atten-tion, and controls our actions.2
1. www.wsws.org/articles/2000/oct2000/nob-o26.shtml
2. Eric R. Kandel’s speech at the Nobel Banquet, Dec 10, 2000; http://nobelprize.org/no-
bel_prizes/medicine/laureates/2000/kandel-speech.html
40
Eric Kandel, who won the2000 Nobel Prize forMedicine for his work onsynapses
THE NERVOUS SYSTEM’S COMPLEX
STRUCTURE IS ONE OF THE SIGNS OF
OUR LORD’S ARTISTRY AND KNOWLEDGE
Nerve cells pervade our bodies like a network of computers connected to oneanother by cables—the most economical and effective way of electronic com-munication. A similar, uninterrupted flow of information takes place in thebody’s nervous system. At every moment, the electrical signals transmittedalong the nerves carry countless commands and stimuli between the brain andthe various organs. However, nerve cells do not resemble lengthy cables stretching from one endof the body to the other. They are joined to one another, end to end althoughthere are gaps or synapses between them. But how does the electricalcurrent cross from one nerve to another? And how is an uninterruptedexchange of data carried out?At this stage, a very complex chemical system enters the equation.Nerve cells receive and forward messages by means of the connec-tions known as synapses, and at these points, the neurons exchangechemical signals. In this special fluid between the nerve cells are a number ofvery specialized enzymes that possess extraordinary properties, such as elec-tron bearing. When the electrical signal reaches the end of one nerve, electrons are loadedonto these enzymes. The enzymes cross the liquid between the nerves, carry-ing the electrons they bear to the next nerve. In this way, the electrical current
continues to flow, moving on to the next nerve cell. This process takes placein a very short time, with the electrical current suffering not the slightest in-terruption. Most of the time, we are completely unaware of what is going on insideour bodies. This system functions flawlessly without requiring us to thinkabout it, requiring a large number of components to work together in har-mony. All these details are just a small portion of the many examples thatplace the theory of evolution in a complete impasse.
41
NEURONS: ANOTHER EXAMPLE THAT PLACES
THE THEORY OF EVOLUTION IN AN IMPASSE
Research using electron microscopes revealed the minute gap, calledthe synapse, where two nerve cells join. Despite being so small as
to be visible only when magnified thousands of times, thesynapse is also wide enough to prevent electrical sig-
nals from jumping from one cell to another. Despitethese gaps, we
experience nointerruption
in thenervous
network inour bodies.
42
Neurons perform communication in the body by means of a unique method, in-volving electrical and chemical processes of extraordinary complexity. In thisway is established a flawless coordination, both inside the brain and betweenthe brain and the other organs. While you perform movements that appear ex-ceedingly ordinary—such as holding this book in your hand, turning its pages orcasting your eyes over the words— a dense communications traffic takes placein your body’s nerve cells. The more closely one examines the neural networkthat gives rise to this extraordinary communications, the better their miraculouscreation can be understood.The way the nerve cells establish uninterrupted communications, even withouttouching one another, is of the greatest importance in maintaining the body’sfunctions. When you look at this book, for example, if the signals belonging tothe image remained in the first nerve cells in your retina and never reached yourvisual center at the rear of the brain, then you would never perceiveany images of the external world. However, we do perceive ima-ges, uninterruptedly and with no gaps between them, as a resultof Allah’s compassion.
THE UNINTERRUPTED COMMUNICATIONS
NETWORK IN THE BODY
Neurotransmitter
Nerve cell
Nerve cell membrane
Incoming nerve signal
Synapse (nerve gap)
Sacs containing neuro-transmitter droplets
Harun Yahya 43
Cells That Produce Their Own Energy
As you have already seen, your body functions with electricity.
However, in contrast to the other electrical systems we are accustomed to
seeing, your body takes in no electricity from the outside.
Consider any electrical device. In order for it to function,
it requires an electrical current provided from some out-
side source, or else to be by means of batteries.
Otherwise, in the absence of electrical energy, even the
most advanced machine will serve no purpose. But in
contrast your body creates the very energy it needs.
Trillions of cells produce—and use—electricity in order
for life to continue.
Every cell is like a miniaturized battery that permits
the body to function as a whole. Surrounding the cell is
a liquid rich in potassium, and the inside is full of liq-
uid high in sodium. When you mix potassium and
sodium, the two chemicals react and an electricity
emerges as a side product. This is analogous to a car
battery’s producing electricity when sulfuric acid
and lead come in contact. In much the same
way that radios, cassette players, flash-
lights, clocks and appliances work
with energy they obtain from
THE MIRACLE OF ELECTRICITY IN THE BODY
batteries, no car can operate without the energy stored in its battery. And
both household and car batteries use chemical energy to produce electrical
currents of various strengths.
Electricity used by the body is termed bioelectricity, the cellular ex-
change of negatively and positively charged particles known as ions. For ex-
ample, when potassium is released outside the cell membrane and is re-
placed by sodium, a small electrical current develops; the potassium is sent
inside the cell and sodium outside. According
to a statement by Lendon H. Smith, M.D., a
pediatrician and one of the best-known ex-
perts on health and nutrition; “In this way the
cells act as tiny batteries with their own elec-
tromagnetic current.” 25
44
Neurons never touch one another, but the synapses between them are so minutethat nerve impulses can travel from one neuron to another as if there were nobreak at all.
Axon
Impulse
Na+
Na+Na+
K+
K+
K+
Na+
Cells work like batter-ies in the body.Thanks to the electriccurrent that the cellsproduce, impulsesmove from one nodeto another, transmit-ting signals at veryhigh speed.
Myelin sheath
RestReturn toresting po-tential
Re-polarization Action poten-tial begins.(2 Na+ enter)
Action poten-tial(6 Na+ enter)
Harun Yahya
Adnan Oktar
45
The Cell Membrane’s Special Design for
Electricity Production
It is electrical current that makes the lights in your home shine so
brightly—a current that consists of the movement of electrons. The electric-
ity in your cells, on the other hand, is carried by ions—electrically charged
atoms or molecules. During the movement of ions, cells produce electricity
from potential energy that is ready to be used. Similarly, the water in a dam
produces electricity by passing through a hydroelectric station.
In cells, electricity is produced in this way: In all cells, there is a volt-
age difference in electrical charge along the cell membrane. This voltage dif-
ference causes the formation of what’s referred to as electrical potential. This
electrical potential in the cell membrane is known as resting potential, whose
level is approximately 50 millivolts.
All cells use this potential energy to carry out activities inside them-
selves. But nerve and muscle cells also use this same energy for physiologi-
cal tasks. Thanks to this current, contraction takes place in muscle cells, and
this same current permits signals to be transmitted by nerve cells.
In the cell membrane, there are channels that permit only certain ions
to pass through. By means of these channels, ions are sent inside or outside
the cell. With the movement of positively or negatively charged particles, an
electrical imbalance arises between the inside and the outside of the cell.
This difference between the intra- and extra cellular fluids produces a flow
of ions until equilibrium is re-established. The cell membrane, which sepa-
rates the protoplasm inside the cell from the outside environment, has a se-
mi-permeable structure that permits certain ions to pass through, while ob-
structing others. Therefore, when the cell feels the need for electricity, it
opens one of these channels in order to complete the electrical circuit.
The channels in the cell membrane function like security personnel, al-
lowing certain ions to pass and blocking the passage of others, which are ac-
tions requiring purposeful intelligence. There is no random passage here,
but on the contrary, a mechanism of conscious selection. No doubt that it is
impossible for insentient collections of molecules to undertake such respon-
THE MIRACLE OF ELECTRICITY IN THE BODY
sibilities of their own accord. All this points to a fact that evolutionists deny:
intelligent Creation.
There is a perfect equilibrium established by the positively electrically
charged atoms—in other words ions—, inside the neuron, or nerve cell. The
ions that assume important responsibilities in neurons are potassium and
sodium, each with one positive charge, calcium with two positive charges,
and chloride ions with one negative charge. At rest, the neuron is negative-
ly charged, with negatively charged proteins and various ions present inside
the nerve cell. There are more potassium ions inside the neuron than there
are outside it, and fewer chloride and sodium ions. The equilibrium of the
ions inside the cell has been arranged in such a way as to serve the specific
purpose of transmitting electrical current and signals.
The message that arrives as an electrical signal, and is deposited at the
receptors in the membrane of the receiving cell, initiates a series of process-
es inside the cell that is highly reminiscent of a row of dominoes. These proc-
esses, take place one after the other in a flawless order, leading to the open-
ing of specific channels in the cell membrane. Thus the sodium ions taken
into the cell, with its initial negative charge (of -70 millivolts), lead it to as-
sume a neutral charge. The transfer of ions between the exterior and interi-
or of the cell then produces a new electrical signal. The nerve cell that for-
wards the message—and has thus discharged its duty—returns to the rest-
ing position. This passage takes place with the opening and closing of the
sodium and potassium channels in less than 1/1,000th of a second.
These processes, which have been simplified as much as possible for
the sake of explanation here, actually contain exceedingly complex stages. If
the production of electricity in a single cell were left for you to perform con-
sciously, you would have to supervise the opening and closing of the chan-
nels and ensure ion equilibrium, all in less than 1/1,000 of a second. But of
course it would be impossible for you to establish such equilibrium, nor to
control and direct such a rapidly functioning system in billions of nerve
cells. Yet this system continues even when you are asleep!
What is the level of electricity in the body? The difference between the
charges inside and outside the cell is approximately 50 millivolts. According
46
to the calculations by Professor Steven M. Simasko of Washington State
University, if all the energy produced by the body’s trillions of cells were
added together, it would be enough to light a 40-watt light bulb.26
Some cells produce more electricity than others, an amount that varies
depending on the task the cell performs and for what purpose the current
electricity is used. For example, nerve cells must produce large quantities of
electricity, because they transmit their messages over long distances. In a
truly extraordinary way, cells are apparently aware of the importance of the
tasks they perform, and how much energy they will require. They calculate
this to perfection and discharge this responsibility with no
interruptions over the course of a whole lifetime—anoth-
er proof that electricity production takes place in a con-
scious manner.
This is one of the conditions that endow us with
life. For example, if your heart cells produced less
electricity than they actually do, they would be un-
able to carry out the pumping process properly (de-
tails of which we shall be examining in due course).
The blood would be unable to carry oxygen
and nutrients to all your cells, and a
mortal danger would result. But as
you have seen, along with the
flawless creation in our bodies,
every detail in their functioning
is also evidence of exceptional
wisdom.
Nothing in the structure of
the cells is either superfluous or
lacking. Everything is exactly as it
should be. Although each of the 100
trillion cells in the human body is
highly specialized in order to perform
a variety of different functions, as a
Harun Yahya 47
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48
Cells’ electrical properties allow information to be transmitted and signals carried.Channels on the cell membrane open their gates for sodium ions, suddenlychanging the electrical potential in as little as one-thousandth of a second. Thisfeature is of vital importance to the bio-electrical processes taking place in thecell membrane, and therefore, to a living thing’s vital functions.
ATP ADP Inside of cell
Na+
K+
P+
Outside of cell
Image of cell membraneand ion channels
whole they possess flawless organization and functioning. At the same
time, they have effective communication and interrelationships with other
cells in the body, communicating with one another by means of electrical
messages, receiving and transmitting the necessary information, and accom-
plishing to perfection whatever needs to be done.
If a cell anywhere in the body loses its electrical potential, its vital link
to the nervous system will be broken. In the event that the cells in the visu-
al center in the brain lose their electrical properties or that there are no volt-
age gates in the cell membranes, then it will be impossible for the signals
transmitted by the retina to be received, and the individual will no longer be
able to see. In every detail in the human body, there is much wisdom that is
only newly being discovered.
When planning a building, architects also bear lots of details in mind
and if they overlook even one of them, the project will be damaged. Indeed,
from time to time, supports being slightly thinner than they should be, or
the use of less cement in construction, may lead to the collapse of a structure
dozens of floors high. Therefore, the quality of the materials used, their
strength, and every stage of the project are all of great importance. The fact
that the building you are in right now is secure and upright is the result of
the labor, knowledge, calculations, planning and foresight of dozens of peo-
ple who are endowed with reason and consciousness by our Lord. Nobody
can maintain that this building in which you find yourself came into being
gradually, as the result of chance. The organization inside the cell also pos-
sesses an even more sophisticated architecture that requires all the molecu-
les in it to be used at exactly the right quantities and in exactly the right lo-
cations, by means of extraordinarily fine calculations. The cell is an organic
structure consisting of many complex substances composed of as nitrogen,
carbon and water, and one which will die and be eliminated unless it estab-
lishes vital links with the other systems in the body.
What we have described so far is merely a simplified account of the
communication systems in neurons, which continue working throughout a
person’s life. It is difficult even for a person possessed of reason and intelli-
gence to understand this intricacy, yet cells and hormones carry out these
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processes in billions of people with thorough competence and perfection.
But how did the exceedingly complex systems in each of the billions of
nerve cells you possess actually come into being? How did the amazing har-
mony among them come about? How was such perfect communication es-
tablished without the slightest confusion arising? How can this system, de-
pendent upon extraordinarily sensitive balances and timing, continue work-
ing without the slightest error?
It’s quite natural that so many questions beginning with the word
“How” should come to mind. What is peculiar here is the stance of certain sci-
entists who vainly seek to defend the theory of evolution, which maintains—
in the face of all this contrary evidence—that these flawless systems actually
came into being as the result of blind coincidences. Evolutionists seek to trace
the origin of life to a fictitious “first cell” that came into being by chance or
coincidence (a scenario to which even the word impossible would fail to do
justice), but they have no answer to give to the above questions.
There is no doubt there exists a single explanation for the existence of
such perfect mechanisms: it is Allah, Lord of the worlds, Who created cells
from nothing. Our Lord, the Creator of us all, regulates the activities within
the cell and the communications systems among them, right down to the
finest detail.
He is Allah—the Creator, the Maker, the Giver of Form. To Him be-
long the Most Beautiful Names. Everything in the heavens and Earth
glorifies Him. He is the Almighty, the All-Wise. (Surat al-Hashr: 24)
The Domino Sequence of Processes
Within the Nerve Cells
How does information to the effect that your shoes are hurting your
feet reach the brain? How can you perceive discomfort in your feet at the
same intensity in your brain, despite the distance of several feet between
them? Under normal conditions this signal should decrease in proportion to
the distance involved. However, there is a special system in your body to
overcome this.
THE MIRACLE OF ELECTRICITY IN THE BODY50
The signals that set
out from the pain-sensitive
cells are carried along
thanks to the ion movements
taking place along the nerve
cells. In this way, the signal travels with
no loss of energy, and each transfer acquires new en-
ergy in each new region of the cell membrane.
The way the nerve signal is transmitted along the axon
can be compared to the chain reaction that takes place when domi-
noes are lined up next to one another. When you push over the first domi-
no, all the others —if set out at specific distances— will fall over in turn.
When the first one falls over, a chain reaction ensues: consecutive tiles top-
ple over until none remain standing. A similar chain reaction can be seen in
the transmission of signals among neurons:
The first domino will not fall until pushed with enough force. In a sim-
ilar way, a nerve signal will not be triggered until stimulated with sufficient
force—expressed as a threshold. The threshold phenomenon is observed in
the transmission of signals pertaining to the senses. For example, we cannot
hear very faint sounds because the signals they generate are not sufficiently
powerful to set into motion signals from the auditory nerves.
The chain of dominoes loses none of its energy as the individual dom-
inoes fall over. The energy thus continues transmitted, undiminished, until
the last one falls. That is because each standing domino falls over with the
same kinetic energy (the energy a body possesses because of its speed).
Neither do nerve signals lose any of their energy as their signal is transmit-
ted.
A domino falls in only one direction. In the same way, nerve stimuli
move only from dendrite to axon.
As you see, every detail of the body is an example of very wise crea-
tion. The existence of all these must lead us to reflect more deeply, love our
Lord more deeply, and give greater thanks to Him, the Creator of all.
One of the exemplary pieces of behavior of believers is revealed in the
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THE MIRACLE OF ELECTRICITY IN THE BODY
Qur’an:
Those who remember Allah, standing, sitting and lying on their
sides, and reflect on the creation of the heavens and the Earth: “Our
Lord, You have not created this for nothing. Glory be to You! So safe-
guard us from the punishment of the Fire.” (Surah Al ‘Imran: 191)
The Myelin Sheath:
A Special Insulating Material
Nerve fibers that transmit messages from the brain to the muscles and
other organs and back to the brain are covered with a special fatty tissue,
known as myelin. This not only protects the nerve fibers, but also assists
them in forwarding electrical signals.
Myelin functions like the non-conductive plastic or rubber coatings
around electrical cables, insulating them so that no one touching them will
experience a shock and also so that no electric current leaks out, leading to
a loss of power. Were it not for the myelin, electrical signals would leak into
52
Myelin sheath
Muscle cellbody
Sense cellbody
Musclecell fibers
Connectionwith muscles
Signalspassingover nervefibers
Passing of signals
Signal Transmission Actions Swifter Than ThoughtThe nervous system’s con-nections reach everywherein the body. Some functionsperform automatically, with-out our conscious control,such as our heartbeat anddigestion. Other nerves gointo action when we decideto do something, likeclenching our fist.
Some nerve cells are connect-ed to the brain, and others arein direct contact with othernerves that set the muscles inmotion.
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53
Incoming Signals
The Brain Responsible for the System
The Spinal Cord Between Brain and Body
Outgoing Signals
The spinal cord is a thickbundle of nerves establish-ing connections between thehead and all points of thebody. From here, nerves nar-row into 30 smaller bundles.
The brain is a mass of nerve cells thatcontrol and coordinate the electricalsignals that come and go. They canbe measured using a machine knownas an electroencephalograph.
When the brain issues a command another group, themotor nerves, sends the signal along the nerve. Thesenerves are linked to every muscle in the body. Whensmall electrical signals reach the muscles, they contractand permit movement.
One set of nerves carries signalsfrom the eyes, ears, nose, skin andother sensory organs, reporting onwhat is going on in the surroundingenvironment.
Nerve impulses are transmitted fromone neuron to another, just like in a
relay race. This allows signals to travel long distances with no loss of
speed or effect.
THE MIRACLE OF ELECTRICITY IN THE BODY54
surrounding tissues and thus dilute the signal, and possibly harm the body.
In addition, this insulating substance significantly increases conductivity, al-
lowing signals to move more quickly.
Small unmyelinated fibers conduct at speeds of only 1 to 2 meters (3.3
to 6.5 feet) per second, while those covered in myelin can do so at speeds of
up to 100 meters (328 feet) per second.27
The myelin-covered nerve fibers transmit signals from our sense or-
gans to the brain and from the brain and spinal column to voluntary mus-
cles. Actions under our control are so rapid, often so automatic, that it seems
as if the muscles contract as soon as the thought occurs to us. The reason our
movements follow our perceptions so quickly, without our expending a con-
scious effort, is that nerve transmission takes place at speeds of up to 354 kil-
ometers (220 miles) an hour.28 In the 1-meter-long (3.3-foot) sciatic nerve in
the legs, that speed rises to 467 kilometers (290 miles) per hour. xxix
In some situation, the timing of signals reaches extraordinary preci-
sion. For us to make a distinction between B and P sounds when we speak,
our lips need to open in as briefly as 1/30,000 second before our vocal cords
move. Therefore, our listeners do not confuse the letter P with the letter B,
which emerges as a result of the simultaneous opening of our lips and vibra-
tion of our vocal cords. In other words, we owe our ability to distinguish be-
tween the words pat and bat to a timeframe of just thirty thousandths of a
second.30 This distinction is of great importance to our communication. But
since the brain arranges this time frame for itself, there is no need for you to
think about it. When the signal for the vocalization of P or B occurs, all these
events take place in sequence, one after the other.
To better understand the significance of the myelin sheath, consider
Multiple Sclerosis (MS). In this disease, the protective sheath around the
nerves that carry messages in the brain and spinal column is damaged in
places, and there appears hardened tissue known as sclerosis. These hard-
ened tissues may occur in many sites throughout the nervous system and—
by preventing the transmission of signals along the nerves and interfering
with communication between the brain and other organs— lead to a wide
variety of defects. In the same way that holes may damage the insulation
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55
around electrical cables, gaps can also appear in the defective myelin sheath,
which interferes with the transmission of messages.
When you remove one of the standing dominoes in the line, the con-
secutive falling of the line is interrupted when the sequence reaches this gap.
In the same way, a damaged myelin sheath causes an interruption in the
transmission of nerve signals. The effect of one missing domino can be com-
pared to that of serious neural or spinal damage. Nerve signals cannot be
transmitted along until the damage gets repaired.
Cross-section of myelinsheath surrounding the
axon
Cell nucleus
Cell body
Dendrite
Axon
Myelinsheath
Node ofRanvier
Synapticnode
If There Were No Insulation in the Nerve CellsMultiple sclerosis (MS) is a disease in which the faulty working of the immunesystem damages the myelin sheath. As a result, the nerve cell membrane opensand sodium is lost along the axon. As the disease progresses, the amount of my-elin declines and the speed at which impulses are transmitted falls to a few me-ters per second. Leakage gradually becomes so acute that the axons, cell exten-sions, become unable to forward messages, and the target muscle is paralyzed.Even this myelin sheath, a very small detail in the body’s electrical system, is ofenormous importance. Every one of these details is an example of the superiornature of the creation of our Lord, the Compassionate and Merciful.
THE MIRACLE OF ELECTRICITY IN THE BODY56
Among the symptoms of MS are fatigue, pins-and-needles sensations,
numbness, a lack of or reduction in feeling, balance problems, speech im-
pairments, trembling, stiffness hardening of muscles in the arms and legs,
weakness, vision defects, oversensitivity to heat, short-term memory prob-
lems, and difficulties in judgment and decision-making. These symptoms
can vary depending on the region in which nerves have been damaged.
Since the brain controls thinking and movement, damage in this region may
affect any number of functions—memory, understanding, character, touch,
hearing, sight and muscle power.
When damage takes place in the cerebellum, at the rear of the brain, it
causes loss of balance during walking and running by affecting coordina-
tion. It may lead to weakness in the nerves concerned with vision, speech,
swallowing and hearing. Damage in the brain stem can cause functional de-
fects regarding eye movements, respiration, heartbeat, sweating and the ex-
cretory system. When the damage is to the spinal column, loss of communi-
cation occurs between the body and brain. Moreover, the brain’s signals con-
cerning the legs, hands and other organs are prevented from reaching their
destinations. In progressive cases, the disease can lead to partial or total pa-
ralysis—an important example of the importance of the myelin sheath.
The Wisdom of Creation of the Nodes
of Ranvier
In human beings, nerve signals can generally travel at 100 meters (328
feet) a second.31 How is such a speed achieved? The secret lies in the way the
myelin sheath is installed, being interrupted at points known as the Nodes of
Ranvier. There is approximately one node, a few microns (1/1000 millimeter
= 0.0000039 of an inch) wide, every millimeter (0.039inch) on this sheath.
The sodium and potassium channels regulating the passage of ions on
the cell membrane are also collected on these nodes. Nerve signals follow-
ing sodium ions head directly for these nodes. Thanks to this, the transmis-
sion of a signal from your central nervous system or spinal column to your
toes takes place in as little as one hundredth of a second.32
57
Gerald L. Schroeder received his doctorate in the fields of
molecular biology and quantum physics from the
Massachusetts Institute of Technology, and has written scientif-
ic articles for such journals as Time, Newsweek and Scientific
American. He is one of those scientists who lose no opportuni-
ty of expressing their amazement at our bodies’ extraordina-
riness:
. . . most of us life’s mechanisms work in proper order
is a wondrous miracle. When they do not is a trage-
dy. The system described and diagrammed above
[the nodes of Ranvier] is an ingenious one for
communicating massive amounts of complex
information. The parallel processing and
The protein channels onthe cell membrane are col-
lected in the nodes of Ranvier,where the myelin sheath is in-terrupted. The electrical potentialthat forms in the cell membrane istransmitted when it jumps from one ofthese nodes to the next. This special de-sign created by Allah increases the speedof message transmission between neurons.
Node ofRanvier
Axon
Node ofRanvier
Dendrite
Myelinsheath
Cell nu-cleus
Cell body
The myelin sheath serves like insulation, permitting nerve impulses to trav-el more quickly. In the absence of this sheath, or when it has suffered dam-age, the nerves cannot transmit messages to or from the brain.
THE MIRACLE OF ELECTRICITY IN THE BODY
perfect timing involved are as elegant as the finest supercomputer. Perhaps
someday, in the age of communications technology now upon us, we will
imitate and exploit our own design: In the meantime we can only wonder
at the workings of our chemistry. 33
In order for the nerve cells to transmit signals each nerve membrane
must be set in motion in turn. The time this requires seriously reduces the
speed of the signals along the nerves. However, in the face of this decelera-
tion, a precaution has been taken in our bodies. The presence of the myelin
sheath—and its interruption at the points known as the nodes of Ranvier—
cause this transmission to be extremely rapid.
Speed in Signal Transmission
The cell’s charging and discharging itself, the secretion of chemical
substances, their being broken down and then reconstituted—all takes place
several hundred times a second. Though these activities can be summarized
in one sentence, each is an exceedingly complex process, which takes place
at amazing speed. The information needed to plan and produce these is en-
coded in our DNA, which carries our genetic data.
As you have already seen, electrical stimuli can travel in the brain in a
matter of milliseconds. But some signals take an express route. In bright
light, for example, the shrinking of the pupil of the eye takes place in a mat-
ter of moments: Yet the command for the pupil to contract must cross four
or five synapses between brainstem neurons controlling the iris.
One factor affecting how signal production takes place so quickly is the
radius of the axons. As the radius increases, signal production accelerate.
For example, some animals such as the squid have axons as large as 1 milli-
meter (0.039 inch) in diameter. Thanks to this, nerve impulses are transmit-
ted faster, and attain a speed of up to 25 meters (82 feet) per second.34 If this
feature observed in squid were true of human cells, then the diameter of our
arms would be measured in meters.35 That is because a large number of
nerves traverse the same region in the human body, and axons of this size
would turn into a prohibitive factor in such regions. In the human body, a
much more effective method accelerates signal production: insulation.
58
When you need to pull your hand back from a hot surface, the nerves that
permit the relevant muscles to act transmit signals very fast because they are
insulated with a layer of fatty molecules layer
known as myelin, as already mentioned.
The way electrical signals in human
beings are accelerated by an insulating
material, in contrast to other living
things, is one of the signs of intelligent
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59
THE MIRACLE OF ELECTRICITY IN THE BODY
creation. The human body’s electrical system provides rapid transmission,
does not hinder our ability to move, nor impairs our aesthetic appearance.
These attributes being all present at same time can not be accounted for in
terms of chance. Clearly on display here are the Superior Intellect and
Knowledge of our Almighty Lord, the Creator of all things.
In the Qur’an Allah reveals this concerning the creation of Man:
We created man in the finest mould. (Surat at-Tin: 4)
60
If you are looking at a field of flowers, with sunlight being reflected from everyleaf, your eyes see thousands of leaves at the same time. Millions of ion channelsin a million optic nerves stretch from the retina to the visual center at the back ofthe brain, and the images are transmitted as bio-electrical signals at 30 times asecond. Information about the movement of these flowers reaches the brainthrough these signals. Thanks to billions of chemical reactions all taking place intandem, data are recorded simultaneously. If every one of these reactions tookplace consecutively, rather than simultaneously, then movements, forms, colorsand three-dimensional structures would all be perceived separately, and ourworld would seem utterly chaotic. By Allah’s mercy, however, none of this hap-pens. We perceive a bright, colorful, uninterrupted three-dimensional world.
61
WHAT HAPPENS WHEN YOU TREAD ON A NAIL
To better understand how a nerve signal takes place, consider the paincaused when you tread on a nail. Because of the object trodden on, the nerveendings of the cells in your foot contract, leading to the opening of the chan-nels in the cell membranes. Sodium ions are permitted to enter the cell, lead-ing to a greater negative charge in the fluid remaining outside the cell. Whenthis difference reaches a critical point, a signal is sent. Subsequently, in order to restore to its former state this electrical differentialbetween the inside and outside of the cell, the sodium channel is neutralized.In the cell membranes, proteins known as sodium-potassium pumps re-estab-lish the ion balance. For every sodium ion that leaves the interior of the cell,a potassium ion is pumped in the opposite direction.As a result of these reactions, the information regarding a nail having pene-trated the skin is transmitted upwards by means of the nerves. Reaching thespinal column, this information is passed on to other nerve cells. Some nervecells carry this information by means of axons to the region of the brain thatrecords sensations of pain Others, together with motornerve cells, send the signal directly to the legmuscles, instructing them to contract and with-draw the foot.In order for this event to happen, whichtakes place within a second or two, a largenumber of systems come into play. Eachcomponent necessary for these systemsto function is a complex mechanism in itsown right. As you have seen, we livethanks to systems built on exact calcula-tions and sensitive planning. All these aremiracles of creation that remind us of ourLord, Who pervades and enfolds all pla-ces, and that enable us to properly appre-ciate His knowledge.
Muscularsystem
Sensorysystem
Cross-section of
spinal cord
Brain
62
Mitochondria consist of proteins that are synthesized inside the celland work just like a power plant providing the energy needed for thecell’s activities. Despite their being involved in so much activity, mito-chondria continue working with no need for repair or maintenance.
MItochondrIa: The Cell’s Energy Plants That
Produce ElectrIcIty
The energy you need to stand up and walkabout, to breathe, and open and closeyour eyes—and to remain alive—is produced in tiny generators in the cellsknown as mitochondria. In much the same way that the energy factories re-quired by is supplied by energy plants, so our bodies’ energy is supplied bythese organelles, or mitochondria. In the absence of these mitochondria, cellscannot perform any of the functions they need to. Muscle cells lacking mitochon-dria cannot contract, liver cells cannot cleanse the blood, and brain cells cannotissue commands.Mitochondria produce practically all the cell’s energy. They use the energy to ox-idize the oxygen we breathe and burn the food we eat. Just as an energy plantusing coal or oil, mitochondria use the energy that formed during the oxidationprocess to produce electricity. In this way, your cells literally operate on electri-cal energy. The mitochondrial engines that work with electricity are very small, and in themthe chemicals obtained from foodstuffs is turned into energy packets that the cellcan use. These packages, known as ATP (adenosine triphosphate), are a high-ly functional form of energy for the cell. Professor of Bioenergetics at UniversityCollege, London, Peter Rich described the connection between biological elec-tron transfer in mitochondria and ATP synthesis in an article published in the sci-entific journal Nature:
An average human at rest has a power requirement of roughly 100 kilocalo-ries (420 kilojoules) per hour, which is equivalent to a power requirement of
Inner membrane
Outer membrane
Cell
Mitochondria use the oxygen we breathe to oxidize the nutrients we eat. Justlike a power plant that uses coal or oil, mitochondria produce electricity from
the energy released during the oxidation process, allowing thecells to obtain the energy they need to main-tain their activities.
1. Peter Rich, “Chemiosmotic coupling: The costof living,” Nature, 421, 583, 6 February 2003
63
116 watts — slightly more than that of a standardhousehold light bulb. But, from a biochemicalpoint of view, this requirement places a stagger-ing power demand on our mitochondria.1
Because mitochondria must serve as energy-producing centers, there are different numbersof them in different cells. Muscle cells, due tothe high levels of energy they require, contain alarge number of mitochondria, whereas their num-ber in skin cells is much lower. If every cell containedonly one mitochondrium, then we could not provide the1,100-1,500 metabolic calories that the body needs to func-tion, even if we were lying down and not moving, let alonegoing about our daily life. A typical dramatization of this can be seen in those af-flicted with the disease myasthenia gravis. These pa-tients are unable to move since their muscles are paralyzed: Their mitochon-dria cannot multiply themselves in order to supply energy necessary for move-ment. Since there are insufficient numbers of mitochondria in each cell, theyare unable to provide sufficient energy for the muscles to contract. This diseaseis enough to demonstrate the sensitive balances in our bodies and the proofsof conscious creation.
ne of the factors that keep you alive at this moment is the
blood circulating in your veins. In contrast to any other
fluids in the body, blood has functions that require intelli-
gence and consciousness. Heading the list of these functions is dis-
tributing the energy that trillions of cells require to live. The de-
fense system that protects the body from germs, the system that
collects wastes and expels them from the body, repair and main-
tenance of the tissues, the establishment of communications and
regulation of body temperature are all made possible by the blood.
The propulsive force that propels this vital fluid to reach every cell
in the body is provided by the heart. In order to grasp the impor-
tance of the heart’s very special pumping system—another compo-
nent of the body’s electrical system— a closer look at the proper-
ties of the blood is needed.
Blood, the Source of Human Life,
Cannot have Emerged by Chance
We are indebted to this fluid that constantly circulates through our
bodies, for our living healthy lives. Blood’s most fundamental duty is
providing the oxygen that cells need to live, by circulating from the
deepest folds of the brain to the outermost layers of our skin. Cells need
oxygen to produce energy by breaking down sugar. If blood fails to
reach a cell, it suffers oxygen deficiency that leads to the death of that
cell.
However, this system functions at every moment and in a flawless
manner for each of the 100 trillions cells in the body. In one day, the
blood travels a total of 19,000 km (12,000 miles)—that’s four times the
distance across the US from coast to coast.
Five liters (1.3 gallons) of blood must circulate in the veins running
through all parts of a body of average weight. If a fifth of this portion, a
one-liter quantity, is absent, the remaining blood becomes more difficult
to move. If it is unable to fill the veins, then the very fine blood vessels
will adhere to one another. Blood circulation will slow, and cells will rap-
idly begin dying. Cells can withstand oxygen deficiency for only
one or two minutes.
For this reason, the body’s oxy-
gen needs to be constantly moni-
tored and kept at a fixed level.
It is definitely illogical to
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THE MIRACLE OF ELECTRICITY IN THE BODY
maintain that blood cells acquired such ability by themselves, as the re-
sult of chance and possess the consciousness to perform a series of cal-
culations and constantly fulfill this function flawlessly. This is just one of
the many features of the human circulatory system. Blood carries nutri-
ents to cells with wholly different responsibilities, and transports their
collected waste products to the kidneys, lungs and liver. It receives hor-
mones secreted by the glands and transmits them to organs in need of
them. It keeps the body temperature constant and protects the body
when any foreign substance enters. In addition, it carries out all these
processes without interruption for an average of 70 years. (For detailed
information, see Harun Yahya, The Miracle of the Blood and Heart,Istanbul: Global Publishing, 2007)
On the other hand, the body’s organs need various substances in or-
der to perform their own functions. These substances which are carried
by the blood include nutrients such as glucose, amino acids, vitamins
and minerals and, most important of all, oxygen. That so, you can once
again see the importance the veins stretching all through the body, of
blood reaching everywhere in it and flawlessly performing all its duties.
These substances carried by the blood are of vital importance to the sur-
vival of all the body’s organs.
However, not all organs require the same amount of blood. Those
with a high rate of metabolism, for example, require more blood than
others. Therefore, there is a regulation in the level of blood transfer that,
however, does not function like a pre-programmed machine. In extraor-
dinary circumstances, blood circulation alters its way of working accord-
ing to the situation. In the event of poisoning, for example, the amount
of blood flowing to the poisoned tissues is increased, to increase oxygen
and remove as much of the toxins as possible.
Blood is not limited to carrying oxygen and collecting nutrients. It
also collects cell wastes and permits them to be expelled from the body.
Each one of your trillions of cells produces many waste products, such
as carbon dioxide and urea that collect in the blood and could have
harmful effects on the body. But urea is removed from the body by being
66
carried to the kidneys, while the carbon dioxide is carried to the lungs,
from whence it is expelled.
As you have seen, a very delicate system inside us functions at ev-
ery moment, according to a flawless plan. But under whose control is it?
It is impossible for organs like the heart and liver, consisting of uncon-
scious cells, to accomplish this by themselves. It is equally also impossi-
ble for unconscious blood cells to assume such a vital function as con-
stantly carrying oxygen to all the other cells in the body. No doubt that
these cells, exhibiting a high level of consciousness that does not belong
to them, are working for our survival under the inspiration of Allah.
They fulfill the flawless duties assigned to them.
Adnan Oktar
The pro-pulsive force
that allows the bloodto flow to every cell in the
body is provided by the heart,with its special pumping system. The
heart’s most important feature is the wayit never stops working. Its special muscles
never suffer fatigue. No artificial pump can work fora lifetime without rest and adjust the rate of pumpingaccording to circumstances. This reveals the wisdomof our Lord and the extraordinary nature of the heart’screation.
THE MIRACLE OF ELECTRICITY IN THE BODY
Immune cells are also circulated throughout the body by means of
the blood. (For detailed information, see Harun Yahya, The Miracle of theImmune System, New Delhi: Goodword Books, 2001) The white blood
cells, which engage in the first action against bacteria or viruses that en-
ter the body, are carried to the specific location of infection by the blood.
Antibodies and leucocytes in the blood immediately identify the place
where the danger has arisen and immediately reach their target destina-
tion with the rapidly flow of blood. Cells carry out a series of conscious,
rational actions, such as recognizing the danger, identifying its location,
traveling to the region by means of the circulation and immediately ini-
tiating a defense. How does the immune system make its decisions,
which require intelligent consciousness? How can it determine that dan-
gers are indeed dangers, and learn how to combat them? These are just
a few of the questions that leave evolutionists speechless.
The cells in the blood stream are only a few microns in size, and
consist of water. They have no reasoning ability, sensory organs, nor any
other similar attributes. Yet they can determine direction, identify sickly
cells, become aware of danger, and eliminate those dangers by acting in
concert—all exceedingly conscious actions. It is unreasonable and illog-
ical to assume that all these functions developed spontaneously, as the
result of chance. Blood cells too small to be seen with the naked eye, de-
void of any capacity for thought or reason, fulfill all these roles, which
you cannot do for yourself, with the greatest care and scrupulousness.
Clearly, any phenomenon that did arise by chance would inflict damage
on the existing order, rather than improving this magnificent system, be-
cause even the slightest error in the body’s microbiological system
would have exceedingly undesirable consequences.
The Heart: A Matchless Pump
The blood reaches every corner of the body by means of the heart,
with its dual pumping mechanism. The two left chambers of the heart
pumps fresh oxygen-rich blood to the entire body, while the right cham-
bers send returning blood to the lungs for carbon dioxide to be extract-
68
ed and replaced with oxygen. The left-hand chambers
possess thicker muscles, since they pump at a higher
pressure in order to send blood to reach the whole body.
The heart’s most important feature is how it works
non-stop, beating approximately 70 times a
minute, 100,000 times a day, and 40 million
times a year.36 During the course of an average life-
time, it beats more than 2 billion times and pumps enough
blood to fill an average of 100 swimming pools.
Also exceedingly important is that the heart’s indefat-
igable muscles pump a level of blood that depends on the
prevailing circumstances. During sleep, the heart pumps
approximately 340 liters (90 gallons) of blood an hour, while
69
The heart is a combination consisting of two different pumps. The one on the leftpumps oxygenated blood to the body’s organs and tissues, , and the one on theright pumps CO2-laden blood directly to the lung, causing all the blood in the bodyto circulate 1,000 times a day. An adult heart pumps 250 million liters (66,040,000gallons) of blood over a 70-year life span. (“The Incredible Machine,” NationalGeographic Magazine, Washington D.C., 1986, p. 123)
Pulmonaryring
Deoxygenatedblood from the headand upper limbs
Blood absorbsoxygen fromright lung
Blood ab-sorbs oxygenfrom lefttlung
Inferior venacava Descending
aorta
Deoxygenated bloodfrom the trunkandlower limbs
DEOXYGENATEDBLOOD
OXYGENATEDBLOOD
Newly oxygenatedblood to the trunkand lower limbs
Newly oxgenatedblood to the headand upper limbs
Aortic archSuperior vena cava
Aortic ring
Mitral ring
Right ventricle
Left ventrcile
Tricuspid ring
Adnan Oktar
THE MIRACLE OF ELECTRICITY IN THE BODY70
during physical activity,—for instance, when running—it increases its
tempo to pump around 2,270 liters (560 gallons) of blood an hour.37 That
is because our muscles need more oxygen when performing tiring activ-
ities. Under such circumstances, the heart increases its working tempo
from 70 to 180 times a minute, and the level of blood reaching the tissues
can increase five-fold.
No man-made pump can match the heart’s ability to work tireless-
ly for an entire lifetime and to regulate the quantity pumped according
to prevailing circumstances. The extraordinary nature of the heart re-
veals an important fact. Allah created many matchless structures, such
as the heart, in the billions of human beings. And as revealed in the
Qur’an, this is an easy matter for Him:
The heart carries bloodand all essential substan-ces to the cells through-out the body, and when itcan no longer function,death ensues. Like allother organs in the body,it runs on electricity; butthis energy that allowsthe heart to beat does notcome from outside, but isproduced with the con-traction of the heart mus-cles. Since the heart con-sists almost entirely ofmuscle and beats around70 times a minute, thenan electrical impulseneeds to be producedthat many times. Its tire-lessly contracting musclecells possess a specialcreation to work the mo-ment an electrical currentreaches them. The heart,which is made up of thesespecial cells, is an enginethat creates its own ener-gy. This astonishing sys-tem in the heart belongsto our Lord, the Creator ofall things.
Your creation and rising is only like that of a single self. Allah is All-
Hearing, All-Seeing. (Surah Luqman: 28)
A Matchless Creation of Pumps and Valves
The pumps in the heart consist of two different sets of pumps, an
upper and a lower. The smaller and uppermost are known as the atria
and the larger, lower ones as the ventricles. For example, when clean
blood reaches the left side of the heart it first fills the small, upper atri-
um. From here it is pumped to the larger ventricle beneath. The large
ventricle sends blood to the organs of the body. The same process is car-
ried out in the pumps on the right-hand side of the heart. Between atria
Adnan Oktar
Contraction ofthe heartventri-cles
Contractionof the heartventricles
Heart valve open
Heart valve closed
Relaxing of the cor-onary ventricles
At left, the stages in one heart-beat cycle. The three succes-sive phases of the heart’s rhyth-mic beating are made possibleby very sensitive timing and ad-justment. The contraction andcompression stages follow theheart filling with blood by ex-panding. The heart performs itspumping cycle in as little as aquarter of a second, though thisspeed doubles during exercise.
Diastole:During the firstphase of the cycle, oxy-genated blood enters the leftatrium and deoxygenatedblood simultaneouly entersthe right atrium. This bloodthen flows into the ventri-cles. By the end of thisphase, the ventricles arefilled to about 80 percent ofcapacity.
To the right,the heart valves in openand closed positions.
Atrial systole:Impulsesfrom the sinoatrial nodeinitiate the second phaseof the cycle, during whichboth atria contract,squeezing any blood thatremains in the atria intothe ventricles.
Ventricular systole: Theventricles contract duringthe third phase of theheartbeat sequence. Thevalves at the exits of bothventricles open and theblood is forced into theaorta and pulmonaryartery. As this phase ends,diastole starts again.
THE MIRACLE OF ELECTRICITY IN THE BODY
and ventricles are one-directional valves that open to let the blood flow
pass. When the small atria contracts, these valves open and blood fills
the large ventricles. When the ventricles contract, the valves close be-
tween them and the atria, and blood is prevented from flowing back in
the direction from which it came.
There are similar valves in the large ventricle’s exit. When the large
ventricles contract, these valves open and blood is allowed to flow to the
body. The moment the contraction stops, however, the valves close, pre-
venting the blood from returning to the heart.
This mechanism is exceptionally reliable. Similar systems are em-
ployed in modern pumps today. A pump is a device which propels liq-
uids or gasses in one direction. The valve is a gate-like device that opens
or closes in order to control the flow of those liquids or gasses. When you
pull the trigger on a water pistol, you compress the water inside it. This
72
causes a small valve inside to close and anoth-
er outside to open, and the piston is pumped,
expelling the water. In the same way, valves
in the heart guarantee that blood can be
pumped in only one direction.
The valves in the veins prevent a
backward flow against the force of gravity.
When you stand upside down, your blood
does not rush to your head, as you might ex-
pect. That is prevented by the pumps and valves
in the heart. We can compare this situation to the way that valves pre-
vent air from escaping after it has been pumped into a bicycle tire.38
As you see, the heart has been specially designed for a specific pur-
pose. And where there is design, there is inevitably a conscious, intelli-
gent designer. Even if we cannot actually see the Designer Himself, we
can see the evidence for His existence by viewing the design. Similarly,
the systems in our bodies also reveal the proofs of the existence of our
Lord, Who created them all.
The Heart’s Electronic System and Generator
Have you ever wondered what enables your heart to keep beating?
How does it work automatically for hours, days and even scores of
years? The tireless pumping system works with the electrical energy, as
mentioned earlier. The heart transports blood and all the vital materials
to the organs and cells thanks to electrical energy. That is the reason why
doctors employ electric defibrillators in the event of the heartbeat stop-
ping completely.
The energy that allows the heart to beat does not reach it from the
outside. Instead, the heart is an engine that produces its own energy
used during its pumping process. Electricity is produced by the contrac-
tion of the heart muscles. Conductor cells transmit these electrical sig-
nals to the muscle cells that are responsible for pumping blood at ap-
proximately 70 times a minute.
Harun Yahya 73
Adnan Oktar
THE MIRACLE OF ELECTRICITY IN THE BODY
The heart begins beating when the human being is still an embryo
in the womb, before any nerves have connected the heart to the brain.
The heart is able to continue beating even during heart-transplant oper-
ations when all the nerves have been severed and the organ is removed
from the patient’s chest cavity. Under a microscope, a heart cell even
continues to beat by itself as long as fresh oxygenated blood can reach
it.39 That is because there is a generator in the heart cells that produce
their own energy.
As you know, in the event of a cut in the energy supply, a generator
is a device that can take over and continue producing energy that pre-
vents machinery from halting or being damaged. The heart, one of the
most vital organs in the human body, has also been granted a similar
form of protection to prevent its coming to harm, since for the heartbeat
to stop for even a moment could lead to serious bodily damage, and
might even prove fatal. Therefore, the electrical system that keeps the
heart working must itself work without interruption.
Scientists investigating its electrical system encouraged some aston-
ishing facts. The heart functions thanks to an ensemble of programmed
and systematic electronic circuits, with a great many interconnections.
This electronic control-and-management system co-operates with a large
number of other organs, from the kidneys to the brain, from the arteries
to the hormonal glands. But who or what causes unconscious cells to
perform such clearly conscious actions?
Who located the pumps inside the heart and in such an ordered
manner?
Who equipped the body with its veins extending from these
pumps?
Who ensures that these pumps work unceasingly?
Who tells each auricle and ventricle when and how much blood to
pump?
Who created the valves in such a manner as to maintain the direc-
tion of blood flow?
Who distinguishes between oxygenated and deoxygenated blood?
74
Who made the heart cells able to produce their own energy?
Who commands them to beat regularly and in harmony?
The only answer to all these questions, of course, is Almighty Allah,
the Lord of the Worlds.
Allah is He Who created the heavens and the Earth and everything
between them in six days and then established Himself firmly upon
the Throne. You have no protector or intercessor apart from Him. So
will you not pay heed? He directs the whole affair from heaven to
Earth. . . (Surat as-Sajda: 4-5)
Harun Yahya 75
Sinus tachycardia ventricular fibrillation
Abnormal ECGs
mitral stenosis
milliseconds
mili
volt
s
atrial
systole
ventricular
systole
atrial / ventric-ular diastole
Purkinjefibers
NormalECG
By its special creation, the heart regulates the speed at which it beats. A group of cellsknown as the SA node produce electrical impulses in the upper part of the right atrium.These impulses spread throughout the heart and allow the four chambers to contract atjust the right time. This electrical impulse travels so quickly from one side of the heartto the other that it appears that all the heart’s cells are beating at once. This harmony,which is one of the reasons for our survival, is another example of the mercy of our
Lord. Allah reveals this in averse: So look at the effect of the mercyof Allah, how He brings the deadearth back to life. Truly He is theOne Who brings the dead to life.He has power over all things.(Surat ar-Rum: 50)
The SA rhythm is theheart’s normal beat,which is 60 to 100times a minute. Ittakes 0.03 seconds forthe electrical impulseto travel from the SAnode to the AV node,and this is known asnormal sinus rhythm.
SA nodeAV node
THE MIRACLE OF ELECTRICITY IN THE BODY
Heart Cells and Electricity Production
The cells that contract so tirelessly must possess a design that can
begin to work the moment electrical current reaches them. The cells
must respond to every single signal that reaches them, on an average of
72 times per minute.
If you examine the heart under a microscope, you can count more
than a million cells. Exceedingly complex biochemical processes take
place in every one of them. Heart cells are nourished by sugar molecu-
les and oxygen coming directly from the lungs. Every cell has its own
pumps and channels and is joined to its neighbors by connective tissue.40
Every long, thin cell has a cell membrane that divides the cell from
the environment outside and fiber-like proteins that are able to contract.
Proteins embedded in the membrane carry important signals or substan-
ces from one side of the membrane to the other. In terms of electrical
charge, this polarizes the cell, generating a voltage difference between
the inside and the outside of the cell. This difference, known as mem-
brane potential, enables certain proteins in the cell membrane, known as
ion channels, to function like gates. When they are opened, ions flow in.
As a result of complex interactions of ion pumps and channels, a
heart cell contracts thanks to the electrical and chemical differences oc-
curring along the length of its cell membrane. Consider a cell in the heart
ventricle as an example. At a state of rest, the membrane potential in any
cell is more negatively charged than its external environment. However,
the electrical stimulus arriving from the neighboring cell rapidly alters
everything. This differential suddenly increases, and the sodium chan-
nels quickly open up. In this way, sodium ions (Na+) rapidly enter the
cell, triggering the opening of the calcium channels.
When calcium ions (Ca+2) collect around the cell proteins, these
contract. At this point, the sodium and calcium channels close and the
ion pumps move the ions outside the cell, causing it to return to its orig-
inal state. In a healthy heart cell, this transition takes place in less than a
second.
76
The events described here are in fact only a very general account of
the true state of affairs, which is much more complex in its details. The
heartbeat, which requires so many conditions to be met and work to-
gether flawlessly, is one of the countless examples introducing us to the
knowledge of our Lord.
In one verse of the Qur’an the following is revealed:
My Lord encompasses all things in His knowledge, so will you not
pay heed? (Surat al-Anam: 80)
Harun Yahya 77
Adnan Oktar
Every heart cell produces energythat starts the heartbeat in motion.Each coronary cell acts literallylike a living battery, producingelectricity by means of two ele-ments found in the blood in largequantities: sodium and potassium.The atoms constituting these elements often lose a negatively charged electron, andthus gain a positive charge. These charged atoms are known as ions.Heart cells contain a high level of potassium, and the fluid outside the cells is rich insodium. The cell membrane constantly pumps sodium outside the heart muscles andpotassium inside. Since the membrane pumps sodium out faster than potassium istaken in, a positive charge forms outside the cell. When the charge reaches a partic-ular level, the flow is suddenly reversed and sodium ions re-enter the cell. This sud-den change triggers an electrical charge, and the heart cell contracts and withdraws.
Ion chan-nels
Heart cell
Gap betweencells
Cell membrane
Receptors
Heart muscle fi-bers
Nuclei
Signal trans-mission
Signal trans-mission
Below, appearance of heart cells. Right, coronarytissue.
THE MIRACLE OF ELECTRICITY IN THE BODY78
The Pacemaker That Regulates the Speed
of the Heartbeat
Production of electricity by the heart cells is not enough by itself.
These cells must first combine in the right sequence, but it is still not
enough for them merely to join together. These cells must produce elec-
tricity together, in a particular rhythm. Each cell must time itself to act
every 0.83 of a second, without fail.
Moreover, cells must carry on their activity for an entire lifetime,
never tiring. Furthermore, they must know the level of electrical current
that will cause the heart to work as a whole, and to produce that current
at exactly the right level—neither more nor less.
When spread out thinly on a microscope slide, different heart cells
will beat at different speeds. But when combined together, they form a
single tissue that behaves as a single entity. Heart cells in the human
chest do not beat at different rates; although each one initiates its own
beat, they all beat in a rhythmic harmony. The pacemaker in your heart
contains an internal clock that regulates the speed at which your heart
beats. This pacemaker is actually a collection of cells, but it functions far
more perfectly that any electronic device. Using conductive fibers, it dis-
tributes the electrical current it produces to every point in the heart mus-
cle. But this electricity proceeds at different but controlled speeds. When
both heartbeat and transmission system are working properly, they car-
ry out an ordered and determined distribution of electricity.
The heart possesses a natural battery that regulates the speed at
which it beats—a specialized electrical cell node known as the SA node,
(for sinus or sinoatrial node), located in the upper part of the right atri-
um. These cells initiate electrical impulses that stimulate the heart mus-
cles to contract regularly. The SA node produces the electrical stimuli
that spread throughout the heart, ensuring that its four chambers all con-
tract at the proper times. This electrical impulse travels from one side of
the heart to the other so rapidly that it gives the impression all the cells
are beating at once. This rhythm is the heart’s normal beat, which is be-
tween 60 and 100 times a minute.41 It takes 0.3 of a second for the electri-
cal impulse to move from the SA node to the region known as the AV
node located between the atria and ventricles, and this is known as the
normal sinus rhythm.42 The AV node is the location of the cells that pro-
duce the second electrical current that completes the heartbeat.
Just like a sparkplug in an engine, the heart cells fire many times a
minute. Each firing passes through a specialized electrical path and stim-
ulates the muscle walls of the heart’s four chambers in a specific order.
First the upper two chambers of the atria are stimulated, after which
there follows a slight delay for the two atria to empty. When the moving
electrical current reaches the region between the atria and the ventricles
known as the atrioventricular node (or AV node), it slows down a little:
The AV node delays the electrical signal by holding onto it for the short
space of 1/14 second—an interval of time that is very sensitively adjust-
ed. The AV node’s delay gives the atrium time for to contract tightly and
send the blood on to the ventricles. This way, the ventricles fill with
blood to their maximum capacity before receiving the electrical current,
that signals them to pump out their contents. Were it not for this momen-
tary delay, the ventricles would contract before they were entirely filled
with blood, and not enough blood would be transmitted to the body.
Following this delay, the electrical signal continues on to stimulate
the other ventricular cells 1/16 of a second later. The large ventricle, now
filled with large quantities of blood and whose turn has now come, con-
tracts and pumps blood in to the body. All these processes take place in
less than one second.43
To sum up, the electrical current first emerges in the upper part of
the heart, in the SA node, ensuring that electricity is distributed through-
out the heart and that the heart’s muscle cells contract as it passes
moves.44 Yet the situation that comes about is very different from what
one would expect under normal conditions. The energy given off by the
generator should first stimulate the small atria and then the large ventri-
cles. Yet since the electrical wave moves very quickly, both pumps
should contract at almost the same time, and the heart’s work would be
seriously impaired. Yet this never happens, because all this has been tak-
Harun Yahya 79
Adnan Oktar
THE MIRACLE OF ELECTRICITY IN THE BODY80
THE ELECTRICAL ORDER IN THEHEART IS ONE OF THE SIGNS OF
CONSCIOUS CREATION
A node of tissue known asthe SA node in the right atri-um of the heart serves like agenerator to provide electric-ity, sending some 72 electri-cal impulses a minute to theheart of a resting adult. Thisregion produces faster elec-trical impulses than other tis-sues. In the event that the SAnode is damaged, other sec-tions of the heart’s electricalsystem are able to take overthat function, despite beatingat a lower speed. For example, the group ofcells known as the atrioven-tricular fascicle (His bundle)has a speed of 40 to 60 beatsa minute. If the SA node isdamaged, this tissue cantake over the coronaryrhythm. The way that such avital system has been creat-ed together with a backupsystem is just another in-stance of Allah’s protectionof man.
Upper main vein
Lower main vein
SA node
Purkinje fibers
SA node
AV node
AV node
Myocardium
Region betweenventriclesOuter coronary
layer
Left atrium
Right atrium
Pulmonaryvein
The heart’s natural battery is the SA node in the right atrium. The heart also con-tains nerve fibers transmitting electrical signals from the SA node to other parts ofthe heart. An electrical impulse leaves the SA node and travels directly to the rightand left atria, causing them to contract together, all in 0.04 of a second. There isthen a delay that allows the atrium to contract and the ventricles to fill with blood.The electrical impulse heads directly for the AV node, and then to the atrioventric-ular fascicle after which it divides to the right and left and spreads rapidly towardsthe right and left ventricles, using the Purkinje fibers, and enables them to con-tract at the same moment.
en into account beforehand. So perfect is the design of the electrical cir-
cuit in our hearts that the electrical energy first stimulates the small atria,
is kept waiting for a time, and only then stimulates the large ventricles.
After the electrical signal has set out, the atria keep it waiting at a specif-
ic point until they have fulfilled their functions.
But the heart and blood vessels do more than speed up or slow the
blood circulation in response to the body’s needs. They carry blood to
different tissues to spark off different activities. Extra blood rushes to the
stomach when we eat, to our lungs and muscles when we run, and to the
brain when we think and speak. The heart and circulatory system com-
bine data just like a computer to meet the body’s various needs, and thus
respond in a way that no computer can.45
The deceleration or acceleration of the heartbeat generally leads to
tightening of the chest and discomfort expressed in the form of palpita-
tions. The abnormal acceleration or deceleration of the heartbeat may re-
sult from disruptions in the heart’s electrical signals. In order to under-
stand rapid or slow palpitations, we need to examine how the normal
heartbeat comes about and acts throughout the heart.
In cases where the heart cannot make this adjustment, an electron-
ic pacemaker is used to adjust the speed of the heartbeat. However, these
artificial devices bring with them a number of drawbacks that require
careful attention. They must not enter magnetic fields, and have to be
kept away from devices that generate magnetic fields. Yet no such prob-
lems are experienced in the heart’s natural pacemaker. How, then, did a
group of cells in our bodies determine—and then meet—needs of which
we are consciously unaware? This is a precautionary measure in our
bodies, a comfort prepared for us beforehand. All this is just one of the
signs of the infinite mercy of our Lord.
There is no one in the heavens and Earth who will not come to the
All-Merciful as a slave. He has counted them and numbered them
precisely. (Surah Maryam: 93-94)
Harun Yahya 81
Adnan Oktar
82
The Flawless CreatIon NeEDED for
the Heart to Work SHOWS That There
Is No Room for Chance In the CCreatIon
of manK›ND
QT syndrome is an inherited condition involving defects in the potassiumchannels in the heart, which impairs the heart’s ability to transmit electricity.Those suffering from QT risk sudden death from excessive exercise or even anightmare.
The heart’s electrical activities need to be simultaneous if the organ is toproperly perform all its functions. The body’s natural pacemaker, which regulatesthe rhythm of the heartbeat, sends an electrical signal to every cardiac cell fortheir contractions to begin. In order for the heartbeat to occur, the potassiumchannels must open and the potassium ions have to be permitted to leave thecell. In QT syndrome, however, as a result of functional defects in these chan-nels, the cells’ acquisition of electrical properties for the next beat is delayed.When the heart is stimulated excessively by emotion or exercise, the defectivechannels don’t allow enough potassium to depart, and this electrical irregularitycan lead to the sudden death.
The Atrioventricular Node:
The Heart’s Spare Generator
It is exceedingly important that the heartbeat be rhythmical. Defects
of the electrical current in the cells alter the starting time and speed of
the signal. A signal that begins too early will cause the heart to beat pre-
maturely or else cause an insufficient contraction. In the same way, elec-
trical signals that are slowed down or accelerated will result in a delayed
heartbeat, or one that does not take place at all, leading to various heart
disorders.
From that point of view, both the functioning of the heart and its de-
sign must be flawless. Reserve systems in the heart permit this impor-
tant rhythm to be discharged without interruption.
As well as slowing down the electric current and regulating the
heartbeat and pumping blood to the body, the AV node has the vital
function of acting like a reserve generator to replace the main one if any-
thing goes wrong with it. If the SA node is damaged, the AV node takes
over the task of regulating the heartbeat’s rhythm. But this spare gener-
ator cannot produce signals as strong as those from the original power
source—only 40 to 50 signals a minute. But the signals it does produce
are still enough to keep the heart working. Indeed, people have been
known to live for 20 years even though their heart’s SA node has failed
to work for some reason.xlvi
No doubt the presence of such a system in the body shows that it is
the work of a Creator possessed of intellect and consciousness. That con-
sciousness and intellect are those of our Almighty Lord Who created the
heavens and Earth.
. . . Do you not know that Allah has power over all things? Do you
not know that Allah is He to Whom the kingdom of the heavens and
the Earth belongs and that, besides Allah, you have no protector and
no helper? (Surat al-Baqara: 106-107)
Harun Yahya 83
Adnan Oktar
THE MIRACLE OF ELECTRICITY IN THE BODY
The Accelerator-Brake System in the
Heart’s Operations
Most people know that their hearts speed up under certain circum-
stances—as when they quickly climb a staircase, run or become excited.
The heartbeat speeds up, returning to its normal rhythm later. However,
most people fail to realize what a great miracle this actually is. The speed
of the heartbeat is regulated by a natural computer system installed in-
side the body.
When heartbeat accelerates, unless the body is provided with suffi-
cient oxygen, the cells lose their electrical equilibrium and begin beating
fast and irregularly.xlvii For that reason, it is of the highest importance that
the heart should beat constantly at a regular rhythm. Like a car traveling
at a fixed speed, the heart’s tempo also needs to be speeded or slowed in
certain situations. The “brake pedal” that slows the heart’s rhythm is the
vagus nerves, and the throttle that speeds it up is the sympathetic nerves. *
48 A messenger molecule called acetylcholine permits the braking action.
The heart normally beats 72 times a minute. In situations that place
a strain on the heart, when a person is under stress or running a fever,
the SA node speeds up since the tissues need the heart to pump more
blood. In this way, the sympathetic nerves raise the blood pressure by
narrowing the blood vessels, and the adrenaline glands over the kidneys
release the hormones adrenaline and noradrenalin, which increase the
speed of the heartbeat. The hormone thyroxin released by the thyroid
gland affects the workings of the heart by speeding the metabolism.49
The heartbeat can rise to five times its resting level.
The sympathetic nerves speed up the heart like the throttle in an au-
tomobile. When the parasympathetic system is needed, it can slow the
heartbeat to 40 beats a minute by easing the force with which the heart
muscles contract.50 When they detect that the blood pressure has risen,
84
*Sympathetic nerves: components of the autonomous nervous system that work outside ourconscious control and regulate the workings of the internal organs.
receptors in the arteries stimulate the brain by means of the parasympa-
thetic nerves to release the chemical known as acetylcholine. Blood ves-
sels in the heart expand, and thus pressure falls. If the blood vessels car-
rying clean arterial blood were not wide enough, they might tear and
rupture. The skull might then fill with blood as in a stroke, and the indi-
vidual be crippled by lack of blood reaching the brain.
But how does this assortment of cells know when to beat, and how
fast? Who tells them to adjust their speed? And how did they acquire the
consciousness with which to carry out such a vital function? How and
by whom is the decision to accelerate or decelerate taken? In the human
body, there is such perfect regulation and such a network of data-ex-
change that no artificial processing network can begin to compare with
it. This system functions without your knowledge, even at this very mo-
ment, showing that it is the product of a superior Intellect and
Knowledge. These belong to our Lord; Who is capable of creating what-
ever He wishes.
Whenever you do something that requires effort, the muscles
around the veins accelerate the flow of blood returning to the lungs. This
means that more blood flows to the right atrium in the heart. At this in-
stant, the muscles contract. The central nervous system transmits the
nerve signals that form as a result of this tension to the medulla oblon-
gata. The medulla analyzes these data and immediately sends a com-
mand to the heart, whose accelerator is activated and its rhythm speed-
ed up. More clean, oxygenated blood thus reaches the muscles.
To keep the heart from beating so fast as to damage itself, a special
security mechanism is needed. The aortic veins emerging from the left
side of the heart contain receptors that measure blood pressure. As the
heartbeat speeds up, the pressure of the blood against the aortic wall ris-
es. When this exceeds a particular level, the receptors become aware of
the rising pressure and send messages to the spinal cord bulb, which
again evaluates the situation and sends a new command to the heart. At
this, the rhythm of the heart is slowed, and the blood pressure is low-
ered.
Harun Yahya 85
Adnan Oktar
THE MIRACLE OF ELECTRICITY IN THE BODY
It is completely incompatible with logic to maintain that uncon-
scious cells know that a too-rapid heartbeat will harm the body and take
precautionary measures to prevent it—or that these cells came into be-
ing by chance. Namely:
Receptors measure excessive blood pressure and are located in just
the right place in the aortic wall.
A line of communication exists between the receptors and the spi-
nal bulb.
The receptors detect the rise in blood pressure and report this to the
medulla oblongata.
The spinal bulb analyzes the information that reaches it and grasps
the importance of the situation.
Some of the medulla’s cells assume the responsibility of regulating
the heartbeat.
86
The waves of energy that cause the heart to work is initiated by the cell groupknown as the SA node, and pass, with the help of the artery muscle, to the AVnode, and from there to the right and left fibers. A special electrical system en-sures these processes. By the will of our Lord, this electrical wave fulfils a vitalfunction in our bodies.
Vagus nerve
Hypothalamus
Medulla
Heart regulationcenter
Heart nerves
SA node
AV node
These cells decide to send a message to the heart.
They dispatch their message in a way that the muscle cells will un-
derstand.
These and many other actions requiring intelligence and conscious-
ness cannot possibly result from the chance cooperation among uncon-
scious atoms. This flawlessly functioning system was created with the
knowledge and artistry of our Lord, Who enfolds and surrounds all pla-
ces.
The Emergency Signal
The human body sometimes needs to be stronger, more resistant
and to exhibit a higher performance than normally. For example, when
a person has to defend himself or escape, the heart needs to beat faster
and to pump more blood.
For situations like these, the necessary precautions have been tak-
en, and another system has been installed in the human body. In case of
any extraordinary situation, the adrenal glands secrete the hormone ad-
renaline. In comparison with its size, this hormone molecule makes a
very long journey to the heart. Reaching there, the hormone commands
the heart cells to contract more speedily. The adrenal cells producing this
hormone know which language those heart cells will understand. At the
same time, they are aware that the body must be more resilient and
therefore, the heart needs to beat faster. The heart cells obey this com-
mand and begin beating faster, and in this way, the body is provided
with more of the oxygen it needs in emergency situations.
The famous Israeli physicist and molecular biologist Gerald L.
Schroeder refers to this special system:
Muscle cells and especially muscle cells of the heart have large numbers of
receptors designed to pass adrenaline, a stimulant hormone. At the sensa-
tion of danger (sensation did I say? I wonder just which carbon atom is ex-
periencing this emotional trauma?), our reptilian response of fight stimu-
lates the release of large doses of adrenaline in to the blood. Taken up by
the heart muscles, the beat increases dramatically, pumping oxygen-rich
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THE MIRACLE OF ELECTRICITY IN THE BODY
blood to power hungry muscles in arms and legs. Cells along the small in-
testine are constructed to absorb glucose, amino acids and fatty acids, the
products of food digestion and transport these products to the adjacent
bloodstream, where they’ll be carried to the membranes of cells. 51
As you have seen, it is astonishing how cells made up of uncon-
scious atoms immediately identify this danger, declare a state of emer-
gency, and take the relevant measures. This series of events requires con-
sciousness and cannot, of course, be the work of chance. Our Almighty
Lord created all of these cells and inspires in them the knowledge of
what to do, and when.
88
In individuals with advanced heart disease, the electrical signals that regulate thepumping between the chambers of the heart become irregular. This makes it hardfor the heart to pump blood in a regular manner.
All Factors Must Be Present at Once
In order for your heart to work with perfection, it needs electrical
signals. In order for those signals to be produced, the sodium, potassium
and calcium ions need to be present at particular levels in the blood.
Bearing in mind that these levels are regulated by organs such as the kid-
neys, intestines, stomach and lungs, it’s even more evident that such a
system cannot be the result of a fictitious mechanism such as evolution.
First of all, there is a technology in the heart far superior to that of
any man-made device. But most important of all, is that there would be
no purpose for the heart to come into being by chance on its own.
Together with the heart, there must be blood vessels thousands of kilo-
meters (miles) in total length, as well as liquid blood to fill those vessels,
kidneys to filter the blood, lungs to give oxygen to the blood and absorb
carbon dioxide, a digestive system to provide nutrients for the blood, a
liver to refine these nutrients, a nervous system to regulate the working
of the heart, a brain to manage the body as a whole, a skeletal system to
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Most heart attacks occur when one ofthe arteries that nourish the heart withblood becomes blocked. When themuscle cells are deprived of oxygenor nutrients, they become acidic andbegin beating spontaneously in an un-controlled manner. These pulses dis-turb the rhythmic contractions of theheart. All of this reveals how theheart’s design is an example of a su-perior creation.
THE MIRACLE OF ELECTRICITY IN THE BODY
keep the body upright, and a hormonal system to assist the heart’s oper-
ations—are all present at the same time. The way that all these and thou-
sands of other elements come together in the most harmonious manner
possible is one of the many proofs of a flawless Creation.
90
The heart generates special electricity that allows it to beat regularly. Sometimeswhen people have heart problems, they need a miniature battery to regulate theirheartbeat. These devices, known as pacemakers, permit the heart to beat at a reg-ular speed, by sending it small electric shocks. The way that the unconsciouscells in the heart combine to discharge such a vital responsibility happensthrough the mercy of our Lord.
Main artery
Rightatrium
Metal wireElectrode
Optic fiber
Optic fiber
Battery
Laser
Typical catheter
Photoniccatheter Electrode
Photo diode
Light
Light
A pacemaker (a device that regulates the heartbeat) installed in the body
LED (light emittingdiode)
Micro-processorW
ou expend energy in reading these lines, in turning the
pages of this book and even just sitting back in your chair.
Your skeletal muscles provide this strength and use it wher-
ever necessary. Various muscles extend to every point in your body
and represent some 45% of the human body’s weight.
Every muscle consists of large numbers of fibers between 0.5
and 14 centimeters (0.2 and 5.5 of an inch) in length and an average
0.1 millimeter (0.0039 of an inch) in diameter. Muscle tissue’s most
important feature is its ability to contract, and its ability to do work
increases in direct relation to its ability to contract. Thanks to this
ability, you are able to drink water, walk, speak, close your eyes and
turn your head.
Muscles in the human body are divided into two groups,
those under conscious control (voluntary muscles) and
involuntary ones. In order to activate vol-
THE MIRACLE OF ELECTRICITY IN THE BODY
untary muscles, one needs to think and decide. When you want to climb
stairs, for instance, your muscles contract at the command from your
brain and perform the action of lifting your legs. On the other hand, the
working of involuntary muscles does not depend upon volition. Since
the functions of these involuntary muscles are extremely vital ones, their
contraction and expansion is controlled, by the mercy of Allah, by the so-
called autonomous nervous system. Therefore, your heart, stomach and
intestines perform their duties regardless of your conscious will. This is
a most vital precaution, for if functions like heartbeat and digestion had
been entrusted to conscious control, it would of course be impossible for
humans to fulfill them constantly. That would spell the end of human
life.
The flat muscles that
work involuntarily move
slowly, but their contrac-
tions are long-lasting. They
do not tire, and thus they
can maintain systems of vi-
tal importance to the body
for lengthy periods of time.
Blood vessels, the digestive
tract and the walls of the
excretory canals, for in-
stance, are all furnished
with muscles of this kind.
Since these flat muscles
work independently of the
skeletal muscles, they are
responsible for only the
movements of internal or-
gans.
Imagine that the in-
voluntary muscles were
92
temporarily placed under your control. You would need to contract the
walls of your stomach in order for digestion to take place, and contract
your heart to pump blood. Even if you concentrated on only those tasks,
you still couldn’t possibly manage them. That’s because these muscles
continue working on your behalf when you are asleep, and perform
their functions for a whole lifetime, never resting. If conscious, therefore,
muscular contractions would stop when you wanted to sleep or rest, and
that would spell the end of your life. As we have seen, the flawless order
in our heartbeat is sufficient to show us the mercy that Allah has be-
stowed upon us.
Actions That Take Place with Electrical
Current
When you want to move a finger, countless nerve cells in your brain
start sending minute electrical signals to one another. These currents are
later transmitted from the brain to the arm, by means of the medulla ob-
longata and spinal cord, through one of the many branches of the nerv-
ous system. When this minute electrical current issuing from the brain
reaches the forearm, there, it causes muscle cells to contract, which in
turn pulls a tendon that causes your finger to move.
All these phenomena take place at practically the same time. There
is a flow of data from both the eyes and the finger back to the brain,
thanks to which the brain checks whether the movement is in line with
the command it gave. If the movement of the finger meets an obstacle
and is unable to do what is required of it, the brain can modify the situ-
ation by issuing new commands.
Gerald L. Schroeder cites one example of the supervision between
the muscles and the brain:
Muscle distribution within our bodies is filled with cleverness. Hold your
hand up and bend your fingers. Notice that the muscles that allow you to
cup your hand by bending your fingers down are not located in your fin-
gers. Make a fist and feel the inner, smooth side of your arm just below the
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THE MIRACLE OF ELECTRICITY IN THE BODY
elbow. Feel those muscles flex. They are connected via tendons to your fin-
gers and give the pull that shapes your fist. By having the muscles located
on the arm rather than at the fingers, the fingers remain slim enough to do
fine work such as holding a stick or typing a page. But when you pull your
fingers down, there is another joint in the line of action, the wrist. Why is-
n’t that pulled down along with the fingers? Now feel the outer, hairy side
of your arm just below the elbow. Feel the other muscles at work there.
They get the command to apply just the correct force to hold the wrist
steady when your brain says bend fingers only, and they allow the wrist to
bend when the cranial message is: wrist also in action. But we never think
of it because it’s all controlled at the less-than-conscious level.52
Thanks to tension receptors on the muscles, such actions as run-
ning, walking, opening a door or climbing stairs can be carried out in a
smooth, coordinated manner. These receptors keep the nervous system
constantly informed, giving the brain feedback about the status of the
muscles, and the degree and speed of their contraction. Close monitor-
ing and co-ordination of muscular activities is ensured, and as a result,
you can walk along without stumbling, climb up and down stairs with-
out falling, and lift your spoon to your mouth without your hand shak-
94
A great many bones have been created to support the body and between thebones, joints have been created to let them move. However, none of these jointspossesses the ability to move on its own. In the same way that adoor or window, no matter howperfect it may be, can open orclose without a force topush or pull it, so nojoint can move withouta force behind it. Theforce that causes thejoints to move is pro-duced by the mus-cles created byAllah.
ing. All these actions are made possible by the will of Allah, thanks to the
flawless order of the functioning inside the body.
The Originator of the heavens and Earth. When He decides on some-
thing, He just says to it, “Be!” And it is. (Surat al-Baqara: 117)
How Do Muscles Contract?
For any contraction to begin, muscle fibers must be stimulated. The
mechanical energy that emerges as a result contraction is provided from
the muscle’s resources chemical energy. Therefore, the work that the
muscle must do depends on its chemical energy being translated into
mechanical energy.
Muscles are like biological machines that turn chemical energy into
mechanical power. However, the functioning of these machines— in oth-
er words, our ability to move—requires energy. Glucose in the blood
provides the necessary energy, just like the fuel that makes an engine
work.
The body obtains this energy needed for muscle movement from
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THE MIRACLE OF ELECTRICITY IN THE BODY
the food we eat. Digested carbohydrates, fats and proteins reach the
muscles by way of the liver. Proteins that serve in the development and
repair of tissues are reduced to the level of amino acids, while carbohy-
drates and fats provide necessary energy in the process of being broken
down chemically. Energy released during this process is used by the pro-
teins of muscles for the purpose of contraction. These chemical reactions
require a high level of oxygen, which is not easy to obtain. In order to
overcome this problem the muscles use their ability to turn glucose into
lactic acid without the presence of oxygen; and the requisite energy
emerges during this process.
Only limited quantities of the glucose and oxygen essential to con-
traction are present in the muscles. For that reason, additional quantities
of both substances are carried to the muscular system by means of the
bloodstream. The amount of blood reaching the working muscle is there-
fore important. The amount of blood a muscle requires during the per-
formance of work may rise 10 to 20 times. This increased requirement
raises the heartbeat and causes the blood vessels leading to the heart to
expand.
The design of muscle cells is very special. These cells’ structure can
release the energy inside the sugar molecule and use it during contrac-
tion. Both release of energy from the sugar molecule and the transforma-
tion of that energy into physical strength are carried out inside the mus-
cle cell. Energy produced in the muscle cell affects the proteins constitut-
ing the muscle. As a result of this, the proteins attract one another and
the cell contracts by shortening. When thousands of cells shorten simul-
taneously, the entire muscle tissue contracts. The muscles, attached to
the bones by tendons, move the bones by means of this contraction.
The functioning of all the skeletal muscles we use in order to move
takes place via this same mechanism. When to stretch out, you bend
your elbow at the desired angle, when to eat you cause your jawbone to
chew, and when you set your leg muscles in motion to run, behind these
movements lie the electrical activity of the microscopic cells.
In order for a muscle to contract, the electrical signal from the mo-
96
tor neurons must pass between the membranes of the muscle cells and
the nerve cell. As a result of the chemical reaction that takes place with
this electrical impulse, the proteins actin and myosin in the muscle fiber
slide over one another, thus shortening the length of that fiber. During
this reaction, a degree of heat is emitted, and the total heat emitted by all
the muscles determines our normal body temperature. For that reason,
the muscles that shiver and tremble in very cold environments are try-
ing to keep the body temperature stable by producing extra heat through
involuntary motion.
The contractions carried out by a muscle fiber as a result of the elec-
trical impulses from the nerve fiber reaching it one by one eventually fa-
tigue this muscle fiber. It needs to rest. Other fibers that have not previ-
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Minute rods made by two kinds ofprotein molecules, actin andmyosin, give the muscle fiber theability to contract. As these pro-tein molecules contract, they en-twine with one another like theteeth of two combs, shorteningthe length of the muscle fiber.Thus the muscle’s expansion andcontraction come about. The flaw-less electrical order created in themuscle cells by Allah starts thesereactions.
Myosin myofilamentDual myosin part
Actin
Actin
Myosin
Bridges
Actin
Troponin Tropomyosin
THE MIRACLE OF ELECTRICITY IN THE BODY
ously contracted then go into action and permit the contractions to con-
tinue. However, if the electrical impulses from the nerve continue at very
frequent intervals, giving the muscle fibers no opportunity to rest, then
a state of contraction takes place that prevents further movement.
When you want to open a door, an electrical signal leaves your
brain and via the spinal column, heads directly towards your fingers.
The electrical current passes over the muscle surface and triggers the
millions of muscle fibers which, upon receiving the stimulus, immedi-
ately contract. Finally, the bicep or tricep muscle as a whole contract, and
your arm bends at the elbow.
All these processes take place in the blink of an eye. Thus, the elec-
trical current passing through the nerves proceeds in a millisecond, or
1/1000 seconds, and sets the muscle fibers in motion.
The commands reaching the muscles are both produced in and
transported by the nervous system. In that way, the muscular system
functions under the command of the nervous system, and the muscles
work harmoniously thanks to this co-ordination in the body.
Muscle cells perform these deliberate actions in a matter of millisec-
onds, without your having to think about them. Since that obedience
98
Brain
Spinal cord
Arm-bendingmuscle
Bicep
Myofibril
Upper arm bone
Musclegrowth afterexercise
Muscle be-fore exer-cise
Muscle cells can alter their dimensions to a considerable extentand apply a mechanical force by so doing. With this capacity,muscle tissue plays a role in movement, a vital feature of everyliving thing.
A muscle cells thickensproportionate to exercise.This increase in masscomes about through thethickening of the musclefiber, which results froman increase in the numberof myofibrils. As a musclecell thickens, so does theforce it will produce.
cannot belong to the cells themselves, who tells them what to produce,
and when? Whose intelligence and consciousness guide the hormones
and molecules to the correct location? Who tells them they are at the
right place when they arrive, and who directs all these actions? The su-
perior Intelligence manifested in the movement of the muscles belongs
to Allah, the Creator of the cell and the molecules, Who inspires their be-
havior.
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Mo
vem
ent
com
man
ds
Cerebellum Estimating“the image ofthe organ
Control of“movement plan”
Feed
back
for l
earn
-
ing
and
dete
rmin
ing
erro
rs
Target
Tahm
in
Upper wallregion
Lower wallregion Motor
cortex
Imageof body
There are more than 650 skeletal muscles in the body, which contract in order toclose the joints and cause the bones to move. However, all these movements takeplace as the result of an extraordinary co-ordination in the body.
*Hormone: a special substance formed in a gland and carried to cells elsewhere in the bodyto regulate their growth and functioning.
When you decide to liftyour glass to your lips, thebrain immediately sends acontraction signal to yourbicep, contracting the arm.At the same time, the tri-cep muscles at the back ofthe arm must expand to letthe arm bend. The bicep issent a command to con-tract! and the cells thatstraighten the arm arecommanded to halt! Thusthe arm approaches themouth. These systems,over which we have nocontrol at all, are a re-minder that we live inneed of our Lord. “Allah is rich beyondneed” (Surah Luqman:12)and the One Who “haspower over all things”(Surat al-Baqara:20).
THE MIRACLE OF ELECTRICITY IN THE BODY
Implacations of the Disease Known as ALS
ALS (amyotrophic lateral sclerosis) is one of those diseases that
dramatize the effect of the nervous system on the muscles. ALS, whose
cause is unknown, is the disease that has paralyzed the famous British
scientist Stephen Hawking. The motor neurons traveling from the brain
to the spinal column and thence to the muscles become atrophied by this
disease. When nerves that activate the muscles are damaged, the mus-
cles become incapable of stimulation. As a consequence, the sufferers
quickly lose their ability to move, then to speak.
This disease begins with a feeling of weakness in the arm and leg
muscles, and increasingly affects speech, chewing and breathing, and
can eventually prove fatal due to its effect on the chest muscles involved
in respiration.
The etiology of ALS is as yet unknown. In their studies scientists
have observed an excessive level of a neurotransmitter known as gluta-
mate in the nerve connections, which prevents normal transmission of
impulses.
Stephen Hawking currently uses an electric wheelchair to move
and a speech device controlled by his jaw muscles to communicate.
Despite having lost all control over his muscles, another one of those suf-
fering from this disease has established communication with others by
means of an alphabet signaled by his eye movements.
No doubt ALS by itself reveals the vital importance of our motor
100
Stephen Hawking, an ALS suf-ferer, uses an electrically-oper-ated wheelchair to move aboutand a speech device controlledby his jaw muscles to commu-nicate. At the cellular level,even the slightest damage canlead to serious disorders affect-ing the entire body. There is nodoubt that this disease is anexample of our Lord’s mercy onus.
nervous system—which we never reflect upon until we encounter a dis-
ease of this kind. Normally working perfectly without our even thinking
about it, the nervous system is one of the countless examples of Allah’s
mercy on us. Our duty is to appreciate Him and give thanks for the
blessings He has created:
Allah shows favor to humanity, but most of them are not thankful.
(Surat an-Naml: 73)
The Electrical Order in the Muscle Cells
Transmission of electrical current to the muscle cells causes a volt-
age change. This change affects sacs in the sensitive calcium channels,
and calcium ions are deposited inside the cell. Release of calcium from
the sacs causes tropomyosins to move and the region where actin inter-
act with myosin to open. Via this very important process, contraction in
the muscle cells can occur as the proteins slide over one another. In their
normal state, however, actin fibers are covered with proteins known as
tropomyosins.53 Therefore, the release of calcium ions, via the electrical
interaction inside the muscle cells, provides our ability to move.
When a nervous stimulus arrives at the muscle fibers, a chain reac-
tion of complex biological phenomena begins within the cell, releasing
the energy the muscle fibers need to contract. When the electrical current
reaches a muscle cell and calcium atoms are released, this is transmitted
to the DNA. In the relevant sections of the DNA, RNA synthesis takes
place where the requisite enzymes* are to be manufactured. In order for
this to occur, all the stages of enzyme synthesis, DNA activation, the in-
itiation of RNA production and its transport outside the nucleus must be
controlled by enzymes.54 Finally, ATPaz*, just one of the enzymes pro-
duced, carries out the use of ATPs*, and another enzyme ensures that the
ATPaz goes to the correct location. Following that, millions of the ener-
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Adnan Oktar
*Enzyme: a catalyst protein that initiates and accelerates all vital functions. Enzymes speedup biochemical reactions.*ATPaz: the enzyme that accelerates the formation of ADP from ATP.*ATP (adenosine triphosphate): the cellular energy molecule used directly by living thingsto produce biological energy. The ATP molecule is present in large quantities in the mus-cles. It serves as an emergency energy source to provide power for biochemical reactions.
THE MIRACLE OF ELECTRICITY IN THE BODY
gy packets called ATP are combined with millions of proteins, and con-
traction occurs as the ATP is used up. In the wake of contraction, ATP is
again expended. The calcium ions distributed through the cell are again
brought back to fill the sacs. Tropomyosins cover the actins once again,
thus preparing millions of muscle fibers for another contraction.
The substance ATP inside the cell turns into ADP* by giving off
phosphorus and releasing a significant quantity of energy. However,
since this source of energy rapidly becomes used up, the ADP that forms
needs to be turned into ATP. When the ATP is formed, there is an attend-
ant release of energy when carbohydrate and fats are oxidized and bro-
ken down. In the event that there is insufficient oxygen, then lactic acid
form, as the leftover byproduct of oxidation. The accumulated lactic ac-
id and ADP are referred to as “fatigue substances” that impair the abili-
ty of the muscle cell to keep on contracting. Performing rapid and heavy
actions therefore leads to increased accumulation of fatigue substances
in the muscle tissue, depending on the intensity of the work done.
The chemical reactions briefly outlined here actually consist of
many complex processes that it would take pages to describe in full. All
of these processes, to which only brief space can be devoted here, take
place in our bodies without interfering with one another, at high speed
and without interruption. Millions of cells play a part in forming the
command that will travel from your brain to your finger muscle to make
that finger contract. Bearing in mind that thousands of reactions take
place in every cell, you can better grasp what a complex, wide-ranging
infrastructure is needed for a seemingly elementary task like moving a
finger. And during this action, other activities in the body continue with-
out interruption: The heart beats, new blood cells are produced, the eyes
transmit images of your surroundings to the brain, the kidneys filter
your blood, the lungs exchange CO2-laden air for fresh, the digestive
system transmits nutrients into the bloodstream that will provide ener-
gy; and countless more vital functions continue to be performed.
102
*ADP (adenosine diphosphate): a compound that forms when a phosphate group leaves ATP.
Only recently has it become possible to fully understand the perfect
design installed by Allah in our bodies. In addition, scientists continue
to make new discoveries about the body’s marvelous order.
Allah, there is no god but Him, the Living, the Self-Sustaining. He is
not subject to drowsiness or sleep. Everything in the heavens and the
Earth belongs to Him. Who can intercede with Him except by His
permission? He knows what is before them and what is behind them
but they cannot grasp any of His knowledge save what He wills. His
Footstool encompasses the heavens and the Earth, and their preser-
vation does not tire Him. He is the Most High, the Magnificent.
(Surat al-Baqara: 255)
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Myosin varies from a low-energyequilibrium to high-energy equilibri-
um by using ATP. Whenmyosin is charged with high-energy equilibrium, it com-bines with the actin threadand changes towards high-energy equilibrium. Thisallows actin and myosinfibers to combine with oneanother; and the myosinlater attaches to the actin
thread.
Spherical heads
Myosin molecule
Myosin
head
Actin(1)
(2)
(3)
(4)
ATP
ATPADP
ADP
ADP
The body’s ability to move dependsupon sufficient electrical force beingestablished in the muscles, and equi-
librium in the ligaments andtendons. If the body’s
nervous system cannotobtain sufficient elec-trical energy, it be-comes impossible toproduce signals, andthe flow of information
to set the muscles intomotion does not take
place.
THE DESIGN IN THE MUSCLES IS JUST ONE OF THE PROOFS OF OUR LORD
Molecules Whose Importance IS EmphasIzed
wIth ParkInson’s DIsease
The intensity and length of time the chemical messenger remains at the syn-apse gap directly influences the communication between two neurons. There isa different mechanism for each chemical messenger. Some messengers are dis-persed into their surroundings after handing on the message they bear. Othersare broken down by special enzymes. For instance, a special enzyme turns themessenger molecule acetylcholine into choline and acetate.
There is yet another marvelous mechanism in nerve cells. Some of the mes-sengers that transmit the message to the receptor cells are collected again by theproviding cell and stored at the synapse for use in subsequent communications.This process is performed by a number of special molecules. For example, theactivities of the molecules dopamine and serotonin are regulated in this way. Ifwe consider the great efforts presently being made to recycle waste products, theefficiency of the nerve cells’ recycling mechanism can be better understood.
Each stage of this chemical communication depends on the most delicate bal-ances. The messenger molecules employed for every communication, and theproteins and enzymes that serve in the various phases of that communication,are all specifically determined. However, many details of these communicationsare still unknown.
Parkinson’s disease impairs coordination between the muscles, makes move-ments difficult and causes trembling. The cause of this disease is an imbalancebetween the messenger molecules dopamine and acetylcholine. Some nervecells in the brain produce less dopamine than is required, leading to a loss ofmuscle control. This is a fairly new discovery, and earned Professor ArvidCarlsson the 2000 Nobel Prize for Medicine.
One method employed to treat this disease is the transmission of electricalsignals to the brain: Batteries implanted in the patient to stimulatenerves increasingly re-duce these cells’ insensi-tivity. In this method,known as Deep BrainStimulation, DBS, a bat-tery-like device sendselectrical signals via oneof the 100 billion neuronsin the brain and triggersthe release of chemicalslike serotonin or dopam-
104
Dendrite
Serotonin
Raphe nuclei
Nerve cellBrain shell
Brain
ine. This action encourages neighboring cells to send new electrical impulses toother neurons.
But doctors have to be exceptionally careful when implanting the DBS device.A misalignment of just a few millimeters (a few inches) can result in very differentresults, such as depression.
But in almost all healthy individuals, this system works to perfection withoutrequiring any intervention as to which molecules are to be released, when and inwhat quantities. The nerve cells’ communication system once again confirms amanifest truth. These delicate balances and complex mechanisms in questioncannot have come into being through consecutive chance events. It is Allah, theAlmighty and Omniscient, Who creates them, gives them to our service and takesthem back when He so chooses.
105
Synapse
RECEPTOR
Collecting Carrier
Nucleus
Nerve impulse
Electrical impulse
A B
C
D
SYNAPSE
Serotonin is pro-duced in the Raphenuclei of specialnerve cells in thebrain stem, and issubsequently trans-ported to the nerveendings in the brainand spinal cord.
(A) Serotonin is stored in tiny sacs at the ends of nervecells. (B) The electrical impulse sets into motion the mem-brane at the nerve ending and causes these sacs to releasethe neurotransmitter—serotonin. (C) The serotonin mole-cules released into the intracellular gaps, or synapses, bindto receptors on the surface of the other cell. (D) When theserotonin’s task is completed, the receptors release the mol-ecules, which are either broken down or stored for use later.
THE MIRACLE OF ELECTRICITY IN THE BODY
The Body’s Data-Perception Network
A magnificent data-perception network permits the muscles to
function properly. In order to perform any coordinated action, it is first
essential that the positions and interrelations be known of all the organs
concerned. This information comes from the eyes, from the inner ear,
and from perceptions in the muscles, joints and skin. Billions of units of
information are processed and analyzed every second, and new deci-
sions taken accordingly.
The muscles and joints contain billions of tiny micro-receptors,
whose messages reach the central nervous system and in the light of the
analyses carried out in the nervous system, new commands are given to
the muscles. Even when you want to wave to a friend, wide-ranging cal-
culations, comparisons and intense communications all enter your deci-
sion to raise your hand. The sequential contraction and expansion of
your tricep and bicep muscles,
those muscles forward of your
elbow that turn your wrist, and
the muscles that control your
hand and fingers—all are essen-
tial. At every stage of this move-
ment, millions of receptors in-
side the muscles inform the
brain of their position. The fol-
lowing instant, the brain tells
your muscles exactly what to do
next.
The brain stem, working
together with the cerebellum,
provides the vital support sys-
tems in our bodies and also reg-
ulates the contraction of some
smooth muscles. Thanks to
106
these two organs, we can control our muscles while still remaining total-
ly unaware of doing so. We regulate the pressure with which we clench
our jaws, how forcefully we tread while walking, or the speed at which
we will beat an egg—easily and the flawless coordination. If you consid-
er the countless movements we perform every day without ever calcu-
lating them, you can better appreciate the special system we have been
provided with. Thanks to the electrical design in your body, you can car-
ry out all the infinite number of movements you perform throughout the
day, such as getting up and washing your face in the morning, combing
your hair, putting on your slippers, using a knife and fork, turning the
key in the lock when you leave for work, holding a pen, when speaking
on the telephone, even smiling and closing your eyes before going to
sleep.
In order to lift a spoon to your mouth, you need to bend your arm
in the direction of your mouth. After the brain has made that decision, it
sends a signal to contract to the muscles that will bend the arm. But be-
fore that signal reaches your arm, it’s transferred to nerve cells in the spi-
nal column, where electrical circuits perform a number of tasks.
First, they send a signal to the arm muscles. At this point, however,
in order for the biceps to bend, the triceps muscles at the back of the arm
also have to relax. Thus while sending a message for the biceps to con-
tract, the circuits in the spinal column also send a message to the mus-
cles that open your arm. Therefore, your arm approaches your mouth.
These systems, over which we have no control whatsoever, are a re-
minder that we live in constant need of our Lord, “Allah is Rich Beyond
Need” (Surah Luqman: 12) and one “has power over all things.” (Surat
al-Baqara: 20)
As revealed by our Lord in the verse “We will show them Our
Signs on the horizon and within themselves until it is clear to them
that it is the truth” (Surah Fussilat: 53), rational individuals will see the
might and knowledge of Allah in every detail they see.
Your god is Allah alone, there is no god but Him. He encompasses all
things in His knowledge. (Surah Ta Ha: 98)
Harun Yahya 107
Adnan Oktar
The CoordInatIon In Our BodIes Is an
Example of CreatIon
The brain receives messages from receptors all over the body, informing thebrain about the position of the arms, legs and all other parts of the body. Thebrain analyzes this data in order to regulate movement. As a result, you areable to bend over and brush your hair without losing balance and falling over. There are also receptors inside the muscles and tendons, sending the brainmessages about the extension of the muscles and the tension in the tendons.The brain uses this information to tell whether a limb is bent or straight.Sometimes the brain determines the body’s position by analyzing commandssent to the muscles. This monitoring system is employed during the process ofvision, for instance. Since the eye muscles are in constant motion, the imagesformed on the retinas are constantly changing place. Yet that is not the casewith the image we actually perceive, because as the brain analyzes the imageon the retina, it also takes into account the instructions it has issued to the eyemuscles. This system is just one of the examples that demonstrate the designperfection created in our bodies by Allah.
108
Thalamus
Nuclei
Cerebellum
Balance organ
Brain stem
Data regarding movement
Data regarding senses
Musclefiber
Musclefiber
Ligaments
Main motorcortex
Assistant motorcorte
Lumbar system
Spinal cord
In order for any move-ment to take place,complex communica-tions take place be-tween the brain andmuscles. The fact thatcells can recognizeand communicate withone another is a signof intelligent creation.
Muscle Movement, and the Order In the
AcetylcholIne Channels
A muscle contracts when the nerve leading to it is stimulated. The stimulus trav-eling along the nerve triggers the secretion of the messenger molecule acetyl-choline, which diffuses in the space between the nerve and the muscle cellsand attaches to the acetylcholine receptors in the cells’ membrane. This caus-es the ion channels in all the receptors to open, allowing the electrical currentto continue along the muscle cell membrane, resulting in muscle contraction. One way of halting these events is to use a substance that blocks the acetyl-choline receptors, a method used by certain venomous animals to induce pa-ralysis.
109
AxonInsulating sheat
Dendrite
Flow of positive ion
Receptor neuron
Unopenedsacs
Receptor
Sacs releasing mes-senger molecules
Synaptic gap
Nerve cell body
Synapse
The electrical signal sets inmotion the small sacs at thenerve endings. The messen-ger molecules in these sacsare released into the gaps be-tween the nerves.
CalcIum: One of the MInerals Necessary
for the Body’s ElectrIcal System
Calcium performs a great many vital functions. For example, every cell inyour body, especially those in the heart, nerve and muscle cells, requirescalcium in order to function normally. The presence of calcium is essentialfor nerve communications and the regulation of the heartbeat. Calcium al-so plays a role in the contraction of smooth muscles and in blood clotting.In the absence of calcium, messages will not reach the nerves. Since noexternal stimulus is transmitted to the nerves, the brain cannot perceive it,and feeling is lost as a result. This results in a person becoming complete-ly paralyzed or the internal organs failing to function, which in turn can spelldeath. Were it not for calcium, then blood would fail to clot; respiratory func-tions would cease due to serious muscular contractions, and the rhythm ofthe heartbeat would be impaired. Generally, we seldom consider whetherthe body needs such an important mineral. Indeed, you have no idea of thelevel of calcium in your body during the course of daily life, and cannot cal-culate your own calcium requirements. That is because our cells have beencreated with the ability to perform these complex monitoring processes au-tomatically, instead of us having to do them.There are up to 2 kilograms (4.41 lbs) of calcium in the human body. Butonly 1% of this is used in essential processes, the rest being stored in ourbones. This storage system, which responds to our needs, safeguards theexcess for use where necessary without our being aware of it, is just oneof the signs of the mercy of our Lord, Who created the human body withvery special designs, right down to the most minute detail.
110
ElectrIcal Order In Muscles of the
DIgestIve System
Every detail in the human body, from a single cell to the hormones it se-cretes, reveals proofs of Allah’s magnificent creation. Examining the featuresof the digestive system, for instance, we see that the components necessa-ry for the digestion of foodstuffs all possess the most complex structures. Andall these components are in constant communication with one another, knowwhen they need to go into action, and can perform all the processes neces-sary to make nutrients beneficial to the body and for harmful substances tobe weeded out.Different mechanisms allow foodstuffs to travel along the digestive tract. Thesmooth muscles in the intestines contract involuntarily, and thanks to thesemuscles’ rhythmic contraction, nutrients always progress in a single direction.A team led by Jan D. Huizinga, Ph. D., a researcher for Intestinal DiseaseResearch Program, from McMaster University in Canada, studied the cellsthat permit this single-direction movement. In their research they located mi-cro-electrodes along the digestive tract. These micro-electrodes determinedthat the interstitial cells of Cajal set up a constant and regular electrical cur-rent, which permits muscles in the intestinal wall, laid out like the links of achain, to contract one after the other. On its own, however, the flawless formation of an electrical current is notenough for this mechanism to function. At the same time, the current needsto have a flawless rhythm. For that reason, the cells of Cajal setup a network in the intestines. It is this network that per-mits them to discharge the electrical current with thesame rhythm (Science et Vie, September 1998).Thanks to this flawless system, the food you eattravels in one direction along the digestive tract, tobe converted into a form that is useful to the body.Were it is not for the rhythmic electrical currentset up by the cells of Cajal, the intestinal mus-cles could not contract in such a harmoniousmanner. That could lead to the food eaten trav-eling back towards the stomach instead of in asingle direction. Yet apart from cases of seriousillness, such a distressing situation neverarises. As can be seen in this example,the system in the human body creat-ed by Allah is flawless in all re-spects.
111
ou see everything going on around you, can easily dis-
tinguish sounds from one another, and can recognize
flowers that you first smelled in early childhood. You im-
mediately feel pain when you prick your finger with a needle,
feel chilly in low temperatures, and sweat when it is hot. You depress
the clutch pedal with one foot when driving and at the same time,
turn the steering wheel with one hand while changing gears with the
other. You tap your fingers to the beat of the music you’re listening
to, while chatting to the person in the passenger seat. As you speak,
you also listen to the other person and try to frame logical replies. At
this point, a number of details from the past may enter your mind,
and remembered images are conjured up before you. All the while,
you still clearly perceive many surrounding details around you.
Indeed, even while you are performing all these actions, if
another vehicle suddenly pulls out in front of
your car, you immediately stamp on
112
the brakes while not losing control of the steering wheel.
The processes needed for all this to take place are under the control
of the brain, the main management center. From the moment we are born,
it identifies all that we need in order to survive. It plans, organizes and
makes the necessary adjustments so that these goals can be fulfilled, then
issues commands to have them carried out, without the slightest error.
While performing all these functions, the brain works as the body’s
control center at two levels, the first of which covers the activities we
perform consciously, such as walking, reading and learning things by
heart. The other includes the unconscious activities that we cannot con-
Harun Yahya 113
The nervous system maybe compared to a fire de-
partment’s emergencycenter. When a signal
reaches the center, it an-alyzes the information,and ensures that sys-tems go into action byissuing instructions.
The rising temperature in a fire ini-tiates a signal in the smoke alarm.
The sprinkler system used as aprecaution against fire sends anelectronic signal to the fire depart-ment.
Just like the brain in the body,the department analyzes the in-
coming alarm signals and re-acts accordingly.
Instructions are issued tofire engines, and these
are dispatched towherever they are
needed.
The fire-fighting teams head forthe site and reacts in a coordinat-ed manner to the original alarm.
trol, such as heartbeat, respiration and the digestion. The brain automat-
ically directs all these latter activities at every moment, rather like an au-
tomatic pilot.
In addition, events constantly take place in our bodies of which we
are sometimes unaware. Thanks to signals coming from nerves at every
point in the body at once, you can perceive the shape of the chair you are
sitting in and the temperature of the air around you and see and inter-
pret hundreds of other such details. Even a breeze touching the back of
your neck is transmitted to the brain as a sensation with the same flaw-
lessness and timing. Consider the tasks of the brain by assuming that
millions of people want to give you information and ask you questions,
all at the same time. Each of these questions requires a separate field of
expertise, and incorrect answers could result in serious illness or even
death. Also, you have to respond in less than a second. Furthermore,
what is doing the responding is a piece of tissue consisting of uncon-
scious fats and proteins. Therefore, it is not enough to say that your brain
does everything, no matter how perfect a structure it may possess. A
Creator, possessed of superior intellect and knowledge, inspires these
duties in our brain and creates it with the features necessary to carry
them out. That Creator is Almighty Allah, Lord of us all.
The brain’s cells undertake tasks requiring consciousness and intel-
ligence through the inspiration of Allah, and carry them out to the letter.
Allah’s dominion over His creations is revealed in these terms in one
verse:
He directs the whole affair from heaven to Earth. (Surat as-Sajda: 5)
115
The World’s Most Complex Network Is In
Our BraIns
The Internet, which may be regarded as the communications miracle of the20th century, permits countless users to connect to one another by comput-ers and communicate instantaneously. After the message you send from yourcomputer has been encoded in a separate language, it is transmitted electri-cally along the cables to the receiver’s computer. You can examine informa-tion reaching you from all over the world without leaving your chair, and canforward every single piece of it.
Your brain uses your body’s more than 100 billion nerve cells, which cov-er an area of 250,000 square millimeters (2.691 square feet), just like comput-ers in constant communication over the Internet. However, as John Horganstated in his book The End of Science, “Even a system like the Internet is ab-solutely trivia compared to a brain.”1 That is because every one of these morethan 100 billion nerve cells possesses around 100,000 connections.2 Every sec-ond, trillions of electrical signals are transmitted between neurons at a speedof 400 kilometers/hour (248 miles/hour), traveling along pathways reminiscentof a labyrinth.3
1. John Horgan, The End of Science, Broadway; Reprint edition (May 5, 1997) p.
180.
2. - 3. Dr. Sue Davidson, Ben Morgan, Human Body Revealed, 2002,
p. 10.
THE MIRACLE OF ELECTRICITY IN THE BODY
The Flawless Communications Infrastructure
of Our Brains
The 100 billion cells in the brain and their extensions can be com-
pared to a network that pervades every point in the human body. This
network collects messages arriving from all over the body and forwards
them to the brain, establishing flawless communication between brain
and body. Thanks to this link, there is never any interruption inside the
nervous system. And again thanks to this flawless structure, you can eas-
ily adjust the dials on the car radio while driving, as well as maintaining
control over the steering wheel. You do not hit any oncoming vehicles,
despite performing several tasks at once. You can also understand every
word being spoken on the radio, and carry on a conversation from where
you left off. In short, thanks to the brain’s extraordinary capacity, human
beings are able to perform several tasks at the same moment.
Every neuron inside an adult’s brain is connected to around 100,000
nerve extensions. There are some 100 trillion of these, which permit the
great harmony in the brain’s functioning.55 While city planners still find
it difficult to find a solution to traffic congestion, there is never any con-
fusion in the communications among the 100 billion neurons. Professor
of Biochemistry Michael Denton describes the magnitude of the brain’s
116
The human brain is avery complex creation,with a great manynerve cells connectedto one another via agreat many links.
communications network with this analogy:
Numbers in the order of 1015 are of course completely beyond comprehen-
sion. Imagine an area about half size of the USA (one million square miles)
covered in a forest of trees containing ten thousand trees per square mile.
If each tree contained one hundred thousand leaves, the total number of
leaves in the forest would be 1015, equivalent to the number of connections
in the human brain!56
In her book The Human Brain, Oxford University Professor of
Pharmacology Susan Greenfield, an expert in the field of neurochemis-
try, touches on the number of neural connections:
If we took a piece of brain the size of a match head alone, there could be
up to a billion connections on that surface. Consider just the outer layer of
the brain, the cortex. If you counted the connections between neurons in
this outer layer at a rate of one connection a second, it would take thirty-
two million years. As for the number of different combinations of connec-
tions in the cortex alone, it would exceed the number of positively charged
particles in the whole universe! 57
In order to grasp the magnitude of these numbers, which stretch far
beyond the bounds of the imagination, we can cite a few examples from
astronomy: There are around 100 billion stars in the Milky Way, and the
number of galaxies in that part of the universe we can observe is around
100 billion. But even these numbers fail to equate to the number of con-
nections among the cells in the brain.
Isaac Asimov, biochemist and author, states how there can be no ev-
olutionary explanation for this structure:
. . . in man is a three-pound [slightly more than a kilogram] brain which,
as far as we know, is the most complex and orderly arrangement of matter
in the universe. How could the human brain develop out of the primeval
slime?58
In order to conceive of the magnitude of the number of nerve cell
interconnections in the brain, the Amazon rain forest can provide an ap-
propriate analogy. These forests extend over an area of 7,800,000 square
kilometers (3,011,596 square miles) and contain around 100 billion trees.
Harun Yahya 117
Adnan Oktar
THE MIRACLE OF ELECTRICITY IN THE BODY
The number of connections between the neurons is much greater than
all the leaves on the trees in the Amazon rain forest. If those 100 bil-
lion neurons send a signal in just 1/10 of a second, the density of the
chemical and electrical activity that arises still shows the extraordina-
ry nature of the brain. If only 10% of the 100 billion neurons transmit
a signal at any given moment, the intensity of the chemical and elec-
trical activity that results shows its extraordinary nature.59
On the other hand, the area covered by the brain is remarkably
small to contain such a detailed network. Richard Dawkins, one
of the most prominent adherents of the theory of evolu-
tion, compares the neurons in the brain to transis-
tors and offers the following analogy about the
area taken up by neurons in the skull:
But the individual neuron is a much more sophis-
ticated data-processing unit than the transistor.
Instead of three connections with other compo-
nents, a single neuron may have tens of thou-
sands . . . there are some ten thousand million
neurons in the human brain: you could pack
only a few hundred transistors into a skull.60
In every brain cell, there is a system
consisting of tiny connections in a small
surface area that can transmit hundreds of
118
messages at a speed of 100 meters (328 feet) a second and that never for-
gets, becomes confused or causes delays. In addition, in order to be able
to transmit messages, these nerve cells possess large numbers of exten-
sions known as axons and dendrites, which undertake responsibilities
depending on their lengths. For instance, while one axon transmitting a
message from the spinal column to the big toe is 1 meter (3.2 feet) long,
an axon extending from the eye to the brain is only 5 centimeters (1.97
inches) in length. Each one of the billions of axons and dendrites extend
to the length needed to reach the region where a message must be con-
veyed, and then stops when it reaches a sufficient length. Had these ex-
tensions been random and haphazard instead of controlled and con-
scious, then you could never perceive your surroundings or react to
them in an appropriate manner.
For example, if the neural extension leading to your fingertip were
too short, then you would have no feeling in that fingertip, and might
not withdraw your finger from a hot stove in time to avoid a serious
burn.
Furthermore, each one of these 100 trillion connections is in exactly
the right location. If any one was in the wrong place, the consequences
might be very serious indeed; and it might not be possible for vital func-
tions to continue. Yet nothing of the sort actually happens. Except for the
case of rare diseases, trillions of miraculous processes take place in your
body, one after the other, and seem perfectly natural to you.
Darwinists, on the other hand, maintain that nerve cells and the
connections between them came into being by chance. According to their
claim, 100 billion of the 100 trillion cells in the body in some way adopt-
ed the form and properties of nerve cells, and used 100 trillion connec-
tions to bind themselves to one another in a flawless manner. Moreover,
not one of these 100 trillion connections headed in the wrong direction.
These Darwinists’ claims are even more illogical than suggesting that the
electricity network of a large city like New York came into being one
night as the result of a powerful thunderstorm, and became connected
up to every single apartment. The existence of a Superior Power that
Harun Yahya 119
Adnan Oktar
THE MIRACLE OF ELECTRICITY IN THE BODY
constructed and controls this
system is self-evident. That
power is Allah, the Creator of
us all.
How did 100 billion
nerve cells combined together in order
to carry out thousands of difficult and
vital processes? How did their exten-
sions form, and how were they able to
receive reports from different parts of the
body? How could a giant network of
100 trillion connections have formed
in such a perfect and flawless manner?
And how can cells accomplish this duty
of such incomparable sensitivity every second? These questions pose
major dilemmas for Darwinists, who refuse to accept the fact of creation.
For us to lead healthy lives, these countless connections in the brain
must have been established without the slightest imperfection. The least
breakage or error among them could lead to innumerable diseases. For
a human embryo, which grows by the division from a single cell, to
implement such a complex design, each cell needs to be in the cor-
rect place. The right connections have to be built between cells,
120
Dendrite
One difference between nerve cells and ordinary cells isthat the former are not renewed. Almost all the other cells
in the body can divide and be replaced. But when the nerve cellsin the brain are damaged, however, they cannot be replaced.Therefore, a person loses 18 million neurons a year be-tween the ages of 20 and 70, and these are not replaced.Since every action leaves a trace in the brain cellsand affects the connections between the cells,every individual’s brain structure is unique, justlike a fingerprint.
and they all must be inside a
structure that will preserve
them. None of these condi-
tions can be met in the absence
of conscious direction and planning.
That plan is the flawless plan of our
Almighty Lord. In one verse our
Lord’s superior creation is revealed:
He to Whom the kingdom of the heav-
ens and the Earth belongs. He does not have
a son and He has no partner in the Kingdom. He created everything
and determined it most exactly. (Surat al-Furqan: 2)
The Essential Nature of Our Bodies’
Communication Network
Due to the magnificent communication carried out by the brain and
nervous system, your fingers can feel the page you are holding. You see
everything around you in the form of bright and flawless three-dimen-
sional images, and hear even sounds coming from a dis-
tance. The mechanism that gives rise to the sensation of
burning when you scorch your hand is just one of the
Harun Yahya 121
Adnan Oktar
Axon
Nerve cell body
Synapse
trillions of connections leading from your hand to the relevant region in
the brain. Were you not to feel that discomfort, no doubt your hand
would suffer severe injury. These connections from your nerve cells turn
even the touch of a feather into an electrical signal and transmit it to the
brain. That is why you are able to see every detail around you, feel ev-
erything that touches you, and why you feel hunger, thirst and pain. It
is quite impossible for any human to build such an error-free and rapid
mechanism artificially. Yet the nervous system carries out all its func-
tions in the same perfect manner in billions of human beings.
The axon—the extension of the nerve cell discussed in the previous
chapter— may be compared to a long tube surrounded by a membrane.
Everything to do with message transmission takes place in this axon
membrane, just 1/100,000th of millimeter (0.0000039 of an inch) thick.
There are very different molecules in the fluid inside the axon membrane
and in the fluid outside. This tiny extension that transmits data is a tube
filled with liquid protein and potassium. How does chemical substance
receive and transmit data from the outside, in a flawless perfect manner,
to exactly the right region, at the right time? No doubt this system is an
indication of creation.
In this chemical liquid is carried every detail that permits you to de-
termine that the chunk of ice you are holding is actually ice—such as its
coldness, wetness, slipperiness and the way it melts. The single neural
connection perceives this information and transmits it within this chem-
ical mixture. But how does this liquid know that it needs to transmit this
information to the brain? If there were no conscious control system here,
then the information might perfectly well head not for the brain, but for
the liver or stomach. The dendrite extending to the eye might be too
short or too long, the neural networks could become mixed up with one
another, or the messages to be transmitted could be overlooked. But ex-
cept in cases of illness, none of these errors ever arises. Thanks to this
complex mechanism—which has not yet been fully understood even
with today’s technology—information is transmitted, completely and at
exactly the right time, at a speed of 380 kilometers (236 miles) an hour.
THE MIRACLE OF ELECTRICITY IN THE BODY122
Harun Yahya 123
The Brain: The Headquarters That
Runs on Electricity
No matter in what form the information may be—data regarding
taste, touch, smell, sound or sight—to transmit it, the body always en-
codes it as electrical signals. When these signals reach their target, any
nerve or muscle fiber, they give rise to a chemical change, which in turn
causes the formation of a sensation, or a movement or facial expression
through muscle contraction. The way that such a system establishes such
rich, wide-ranging communications reveals the perfection in our nerv-
ous system.
The brain regulates and monitors the body by using electrical ener-
gy. Indeed, everything that you see, feel, imagine or remember consti-
tutes a world made up of electrical signals. The brain is where every-
thing you know about yourself
and your surroundings comes in-
to existence. The entire universe
and everything in it, everyone
you know and every detail about
them are all determined in your
brain. The brain is sovereign over
every outward detail and over
every point in your body, thanks
to the design created by Allah.
As the brain fulfils all these
functions, the fundamental re-
source it uses is electricity, thanks
to which, information and com-
mands jump from one brain cell
to another. In your brain, there is
sufficient electricity to power a 15
to 20 watt bulb. Thanks to that
Complex activities take place inside thebrain, silently and without causing us anydisturbance. If the brain made noise whenit worked, like a car engine, or if its everyfunction caused us discomfort like an over-worked muscle pain and distress . . . Yetby the mercy of Allah, this never happens.
TouchTaste HearingSight Smell
energy, the brain communicates with all other parts of the body, sends
them commands and interprets the electrical messages arriving from
them.61 Not only the cells in the brain, but all the cells in the body pro-
duce and run on electricity.62 The daylight reaching your eyes, the ima-
ges on the television, the music played on the radio, the way you tap a
rhythm out with your fingers and the expressions that appear on your
face—all set a series of electrical vibrations in motion.
So how does this electricity production take place?
The voltage that carries signals from one neuron to another is gen-
erally very small (tens of millivolts), and these signals travel at a speed
of 100 meters (3,937 inches) per second, or two hundred miles an hour.63
Neurons can activate to produce a signal once every five milliseconds
(1/1000th of a second).
The brain performs all its functions by use of the nerve cells known
as neurons, as described earlier. Brain cells, no different in terms of their
chemical constituents from cells in the hand, foot or skin, exchange in-
The human brain, the body’s control center, consists of billions of nerve cells. Whenworking at high capacity, these cells use one-fifth of the blood pumped by the heart, de-spite representing only 2% of the body’s weight. Blood carries the oxygen and sugar thenerve cells require in order to produce electrical impulses. The brain consumes the oxy-gen and sugar in the blood ten times faster than other tissues when the body is at rest. Ifthe brain is deprived of blood for more than five minutes, its cells start to die.
formation about the entire body by using electrical energy as a language
among themselves to transmit all the necessary messages and informa-
tion belonging to the body.
Despite all our scientific advances, this special design in the brain
still remains largely a mystery. Evolutionist scientists despair when faced
with the human mind and the functioning of the brain. Two evolutionists
express their thoughts concerning the brain in the book Signs of Life:
The human brain is the most astonishing and mysterious of all known
complex systems. Inside this mass of billions of neurons, information flows
in ways that we are only starting to understand. The memories of a sum-
mer day on the beach when we were kids; imagination; our dreams of im-
possible worlds. Consciousness. Our surprising capacity for mathematical
generalization and understanding of deep, sometimes counter intuitive,
questions about the universe. Our brains are capable of this and much
more. How? We don’t know: the mind is a daunting problem for science.64
Nerve cells possess many of the same properties as other cells, but
exhibit one extremely important difference: They process data. Their
ability to process information depends on characteristics peculiar to the
nerve cell membrane, which controls those substances (sodium, calcium,
potassium ions) to be taken into the cell. Since ions are electrically
charged, these particles’ movement in or out through the cell membrane
gives rise to a number of electrical changes within the cell. A nerve sig-
nal is the transmission of this electrical change arising along the neuron
membrane.
No doubt that the electrical transmission of data and the perform-
ance of any action by means of electricity are signs of a superior knowl-
edge. The matchless technology in the body demonstrates the existence
of a single Creator possessed of that knowledge. Our omniscient Lord is
He Whose might is sufficient for all purposes, as is revealed in the Qur’an:
Does He Who created the heavens and Earth not have the power to
create the same again? Yes indeed! He is the Creator, the All-
Knowing. His command when He desires a thing is just to say to it,
“Be!” And it is. Glory be to Him Who has the Dominion of all things
in His Hand. To Him you will be returned. (Surah Ya Sin: 81-83)
Harun Yahya 125
Adnan Oktar
THE MIRACLE OF ELECTRICITY IN THE BODY
A Processing Capacity More Advanced Than
the Most Highly Developed TechnologyThe processing capacity in our brains reveals a superior communi-
cation that no computer can match. The processing capacity of the hu-
man brain has been calculated to be equivalent to the total capacity of a
thousand of the most advanced computers.
… [T]he brain holds at least 1014 bits (binary digits) of information.
Actually, it is a much greater number, since the neurons also show interme-
diate firing states, somewhat like a light-dimmer switch. Consequently, the
brain shows both digital and analog characteristics. At any given moment,
perhaps 10% of the brain cells are firing, at a frequency of about 100 hertz.
This implies a rate of 1015 signals or computations every second. For com-
parison, the Cray-2 supercomputer’s speed is 109 computations per sec-
ond, with a storage capacity of 1011 bits. Thus, the storage capacity of this
supercomputer is 1,000 times less than that of the human brain.65
This comparison clearly shows how much more advanced the hu-
126
man brain is over pre-
sent-day technology.
One striking dramatiza-
tion of the brain’s superior
design is a project undertaken by
Dr. Kerry Bernstein, technology director
of the IBM computer firm. In an inter-
view carried on a website and titled
“Brain Teaches Computers A Lesson,”
Bernstein describes how yearly confer-
ences attended by neurologists are held
at IBM headquarters, where their engineers are briefed on the
design in the brain. Bernstein also states that it is impossible to
replicate the brain’s functioning exactly:
That makes it [the brain] exponentially more efficient than the fastest com-
puter. The reason is because of something that we can’t do in electronics.
It’s this notion of massive parallelism. Meaning one bit of data can spread
to 100,000 other neurons. 66
In short, Bernstein says, it is impossible to electrically imitate the
brain. Michael Denton, the molecular biologist known for his works
demonstrating the invalidity of the theory of evolution, says that even
using the most complex technology, it would take the best engineers for-
ever, to design an object even slightly resembling the brain.67
Martin S. Banks, a professor of optometry (the measurement of vis-
ual impairments) and psychology at California (Berkeley) University,
says the following about its efficient functioning:
The brain is efficient in that it doesn’t waste energy maintaining informa-
tion that it will not likely need in real life.68
A computer’s electronic components are arranged in order to per-
form specific tasks. Even if we do not witness its being constructed, it is
still clear that the computer was designed by an engineer with its func-
tions in mind. No one can claim that these components combined to-
gether haphazardly. But the brain is a marvel of design, with a process-
Adnan Oktar
THE MIRACLE OF ELECTRICITY IN THE BODY
ing capacity far greater than a computer. Therefore, considering this de-
sign, we can realize that the brain has a Designer with great breadth of
knowledge. Every stage in the creation of Man is an example of the infi-
nite knowledge of our Lord, a manifestation of His words in the Qur’an,
“We may make things clear to you” (Surat al-Hajj, 5). This is revealed
further in verses:
O Humanity! If you are in any doubt about the Rising, know that We
created you from dust then from a drop of sperm then from a clot of
blood then from a lump of flesh, formed yet unformed, so We may
make things clear to you. We make whatever We want stay in the
womb until a specified time and then We bring you out as children
so that you can reach your full maturity. Some of you die and some
of you revert to the lowest form of life so that, after having knowl-
edge, they then know nothing at all. And you see the Earth dead and
barren; then when We send down water onto it it quivers and swells
and sprouts with luxuriant plants of every kind. That is because
Allah is the Real and gives life to the dead and has power over all
things. (Surat al-Hajj: 5-6)
The Brain’s Parallel Data-Processing Ability
The brain’s activities are controlled by electrical currents and chem-
icals. In this system, millions of different processes operate in parallel to
one another. You can wiggle your fingers and toes at the same time, ex-
tend both your arms and then rotate them in different directions, and
move your head first to the right and then to the left, while humming a
tune at the same time. Even while you manage all of this easily, the com-
plexity of the processes being carried out in each of your muscles would
fill many volumes. For example, the way that you can read the words on
this page is made possible by signals from the optic nerve being proc-
essed simultaneously in the nervous system.
For every action and thought, signals travel along the nerve axons
extending from the brain to the muscles. Sodium channels in the axon
membranes open and close; sodium and potassium pumps regulate the
128
electrical energy balance in every cell mem-
brane. Signals are deposited at the synapses at
the ends of the axons, and the neurotransmit-
ters permit communication between the axons.
Muscle fibers, on the other hand, perform the joint
action of a million connections making five circuits a
second. In this way the necessary power is produced for
you to tense your arms, move your head from right to left,
hum a tune and wiggle your fingers and toes. The relevant
muscles are permitted to contract, but neither too much
nor too little. The way that these can all be carried out
in great harmony simultaneously is of vital impor-
tance, even if many are unaware of that.
About to cross the street, you turn your head to
check the traffic, step forward with your leg muscles, and
analyze the time it will take approaching cars to reach you. You
Harun Yahya 129
Motornerves
Motor nervecell
Motornerve
Acetylcholinesa
Acetylcholinesacs bur
Spinal cord
Brain
Motor nerveending
Motor nerveending
Muscle fiber
Cavity betweencell
Muscle fibershrink
Muscle
Bicep
Triseps
Main chestmuscles
Muscle transition to movement
Formation ofmovement signal
Extraordinary coordination between thebrain and various muscle cells is neces-sary just to lift your arm.
THE MIRACLE OF ELECTRICITY IN THE BODY
then turn your head to check the traffic coming from the other direction.
And at that point, you hear a familiar voice, one you recognize,
from across the street. You compare that voice with records in the other
regions of your brain. The face, identity and name of the speaker all
come into your mind together. Adjusting the tension in your vocal cords
and the shape of your lips, you call that person by name. You wave a
greeting with your hand, while crossing the street safely, and then shake
the person’s hand.
Thanks to your brain’s ability to process parallel information, you
can perform all these actions at once. The brain does this millions of
times a day while you are awake, without your giving any special con-
sideration to how all this comes about.
When you are cold and feel that the air has become chilly, several of
your organs are affected by this change. A series of activities spontane-
ously go into action. Tiny pores in your skin and the outermost blood
vessels contract. The muscles tremble, helping maintain normal body
temperature by increasing heat production.69 In order for all these differ-
ent functions to combine in harmony for a common purpose, a com-
mand center needs to initiate them. That center is our brain. However, as
we have stressed throughout, this extraordinary capacity cannot be the
work of a piece of tissue. It’s through Allah’s creation that the brain can
perform its millions of actions at the same time, in a flawless coordina-
tion. Our Lord’s might is sufficient for all purposes, as revealed in the
Qur’an:
Everything in the heavens and the Earth glorifies Allah. He is the
Almighty, the All-Wise. The kingdom of the heavens and the Earth
belongs to Him. He gives life and causes to die. He has power over
all things. He is the First and the Last, the Outward and the Inward.
He has knowledge of all things. It is He Who created the heavens and
the Earth in six days, then established Himself firmly on the Throne.
He knows what goes into the Earth and what comes out of it, what
comes down from heaven and what goes up into it. He is with you
wherever you are—Allah sees what you do. The kingdom of the
130
heavens and the Earth belongs to Him. All things return to Allah.
(Surat al-Hadid: 1-5)
Chance Cannot Have Brought About the
Regions Comprising the Brain The more we examine details regarding the brain, the more illogical
all claims of evolution appear to be. The brain possesses a number of
components all working together in perfect coordination. Everything
with which a human being deals with is transferred through a series of
highly complex physical and chemical processes to be analyzed in the
relevant regions of the brain. And then the decision is made as to what
reaction will be taken. These processes require a chain of exceptionally
complex and detailed stages, but we feel none of them.
We hold our arms out when someone throws a ball to us, also care-
fully examining the ball’s angle of approach. Yet at the same time, the
electrical signal reaching our eyes is being carried by the axons to the
nerve cell, and transmitted from there to the brain for analysis. This way,
we recognize everything we see, whether it is dangerous, and what kind
of reaction we need to take. Again through the same communication sys-
tem, the brain commands the arms to catch the ball. The details of the
physical and chemical processes are so complicated they would fill
many pages.
The Cerebellum That Harmonizes Actions
The cerebellum, that part of the brain responsible for balance and
movement, consists of millions of neurons, despite representing only a
tenth of the brain’s volume. This small piece of tissue constantly gathers
information regarding the position and movement of the body, keeping
track of all its movements. It enables a person to react without thinking
and directs all the muscles in the body. It regulates a balanced posture by
sending commands to all the muscles in the body, and ensures smooth
movement. Thanks to the coordination provided by the cerebellum, you
Harun Yahya 131
Adnan Oktar
THE MIRACLE OF ELECTRICITY IN THE BODY
can perform such actions as walking and running in a flawless manner.
For example, if you come across a stone when you are out jogging, you
either jump over it or run round it. Identifying the stone, determining
how high you need to jump by analyzing how large it is, planning not to
fall over it, and deciding which of your legs to raise first and the overall
timing—all consists of exceptionally detailed stages. Yet there is no need
for you to waste any time thinking over these. The cerebellum immedi-
ately sends a command to the various muscles telling them the stone
needs to be avoided, and the process is thus carried out in an impecca-
ble manner.
In short, the cerebellum lets every organ be aware of its position in
relation to other organs when the body is in motion. This action, here
summarized in just a few lines, is actually of the very greatest impor-
tance. Your ability to remain aware of the position of your feet should
not be underestimated. If your brain did not exercise such control, then
you would fall over at every step. All these systems, operating so flaw-
132
Thalamus
Middle brain
Pons(bridge)
Spinal cordSpinal cord
Lateral lobe
Cranial lobeRear lobe
Fourthventricle
Epiphysisgland
Fornix Cerebrum
Corpuscallosum
Cerebellum
Hypothalamus
Hypophysis gland
Brain stem
lessly, are proofs of creation. It is impossible for even one of these sys-
tems to come into being by chance.
The Brain Stem: The Body’s Automatic PilotThe second part of the central nervous system is the brain stem,
which is about 7 to 8 centimeters (2.7-3.15 inches) long and maintains a
connection between the brain and spinal column. This structure contains
more complex cell connections than does the spinal column, and essen-
tially links the brain to the spine. This region is indispensable to the per-
formance of vital functions. Respiration, blood flow, blood pressure,
heart rhythm, sleep or wakefulness, attention and a great many other vi-
tal activities are all controlled from this region. It would be utterly im-
possible for you to make a conscious effort to regulate the rhythm of
your heart beat, if you had to fulfill that responsibility without sleeping
and without directing your attention to anything else. That once again
reminds us how much we need this system established in our bodies by
Allah. In fact, every function of the cerebellum is of vital importance.
The Hypothalamus and the Other Regions of
the BrainThe hypothalamus, no larger than a pea, manages such things as fat
and carbohydrate metabolism, the sensations of thirst, sleeping, growth,
appetite, body temperature, the size of the blood vessels, digestive secre-
tions and behavior. It also supervises the working of almost all the
glands in the body by means of various hormones it secretes. Yet while
carrying out these important duties, it represents only 3% of the brain by
volume, and weighs a mere 4.5 grams (0.009921 of a pound). Hormones
released by the hypothalamus are like chemical messengers that reach
every part of the body, carrying various instructions with them. In addi-
tion to carrying messages, hormones also set various regions into motion
and fully discharge their responsibilities.
For example, if growth hormone is being secreted, it sets into action
Harun Yahya 133
Adnan Oktar
THE MIRACLE OF ELECTRICITY IN THE BODY
all the systems concerned with growth. That the hypothalamus constant-
ly produces such secretions, spreading throughout the entire body and
adjusting its equilibrium, is of the greatest importance. However, even
though the growth hormones travel throughout the body, it will affect
only the relevant locations of the body. These mere secretions, that is to
say hormones know which parts of the body they need to act on and af-
fect only these, despite traveling through the entire body. Yet these ac-
tions all require consciousness and intelligence. The way that the secre-
tion finds its way and recognizes every region inside the body, arrives at
its destination with impeccable timing, initiates the requisite changes
and at just the required level— causing hair to grow, for example—are
all phenomena that cannot possibly be the result of chance. Also excep-
tionally important is the way this secretion knows whether the body is a
man’s or a woman’s and establishes a different equilibrium accordingly.
In men, hormones cause the beard to grow and the voice to deepen,
whereas in women they prevent these changes. The way an unconscious
fluid with no ability to make distinctions can
operate such a planned, accurate and
conscious system definitely cannot be
accounted for in terms of chance.
This system is the creation of
Allah, Lord of infinite intellect
and knowledge.
In addition the thalamus in
the brain translates signals in
134
We generally never consider what isgoing on in our heads. But even whenwe sit down to rest or go to sleep, thebrain continues its activities.Throughout the night, it continues toensure our breathing, digestion, heart-beat and cell renewal.
such a way that the brain can perceive them, so that the brainstem regu-
lates such important functions as respiration, blood flow in the veins,
heartbeat, sleep and wakefulness. It is impossible for a human to main-
tain even respiration by conscious control. If that control were handed
over to you, then in all probability you would die the moment you fell
asleep. Yet even though breathing is one of your most basic needs, you
need pay it no conscious attention at all. Without your being aware of it,
a mechanism in your body works in a systematic and uninterrupted
manner.
Harun Yahya 135
Because of the division of laborbetween the two halves of
the brain, the transfer ofinformation from one
side to the other is ofthe highest impor-tance. The mutualflow of data be-tween the twohalves in en-sured by meansof a bridge, thecorpus callosum,
consisting ofsome 80 millionaxons. Were thatconnection notestablished, then
chaos would en-sue inside the
brain. Not only mustthe transfer take place, it also must be done with very sensitive timing, requiring simulta-neity accurate to 1/60,000 of a second. For example, were there no such simultaneity inthe sense of sight, then the image seen by one eye would be incompatible with that seenby the other, and double vision would ensue. Were there no simultaneity in our sense ofhearing, then all we hear would be meaningless echoes.
136
Movement
TouchSmell
SleepHearingSight
Speech
Balance
Brainstem Spinal cord
Taste
The Modular System In the BraIn
Each part of the human brain has its own particular function. One con-verts sounds into speech, one combines colors in the form of an image, oneregisters smell, and yet another recalls a familiar face or distinguishes fishfrom fruit. Yet the functions of these components are not fixed, and allfunction interdependently.
The first research into the brain’s being divided into two separate hem-ispheres was performed by the psychologist Roger Sperry, and won him theNobel Prize. Sperry showed that the brain was a modular system, not “ahomogeneous black box.”1 The importance of the modular system comesfrom the fact that it can be assembled and dismantled, can change its func-tion according to need, and can be shaped according to the desire of theuser. In addition, materials designed for a modular system are exceedinglyflexible in application and development. The brain does not have a fixedstructure, but alters according to the conditions and is open to develop-ment—a feature that astonishes scientists.
1. Rita Carter, Mapping the Mind, London: University of California Press, February
1999, p. 4
Epiphysis gland
137
Comparison of various systems’ memory in terms of word count(One word = 5 bytes = 40 bits)
1. D. Meredith, Metamagical Themes, N.Y: Basic Books, 1985; [Dr. Don B.DeYoung,
Dr.Richard Bliss, “Thinking about the Brain,” Impact, no.200, February 1990;
http://www.icr.org/article/326/ ]
Storage Device Information capacity(words)
300
40 to 200 million
2 trillion
2.5 trillion
One typed page
3.5” double-density compact disk (CD)
20-million-volume library
Brain—25 million volumes of information
Computers That Try to ImItate the BraIn
Computers perform a wide range of functions that make our lives easier.Our brains, which direct all our bodies’ activities, possess a system far supe-rior to that of any computer, and possess superior features that cannot be im-itated.
Thanks to this complex design, the brain stores at least 1014 bits (datatransmission units) and forwards or calculates 1015 signals a second. Thebrain’s data storage capacity can be compared to the equivalent of a librarycontaining 25 million volumes, which would occupy an approximately 800-kil-ometer (500-mile) long bookshelf.1
Computer engineers sought to imitate this extraordinary structure in thebrain by building nerve networks, but eventually concluded that in a greatmany respects the brain can never be imitated by machines. The brain’s de-sign, one of the most perfect systems created in our bodies, is just one exam-ple of our Lord’s creative artistry and the superior nature of His knowledge.
In the above table various data storage systems are compared in terms ofthe numbers. As can be seen, the brain has the greatest storage capacity of all.
THE MIRACLE OF ELECTRICITY IN THE BODY
The Spinal Column That Assumes Controlin Emergencies
The spinal column, the main pathway of the body’s communication
network, transmits data to the brain and sends commands to other re-
gions of the body. Like a broad bundle of electrical cables, it enables
commands on the nerves to travel with ease between the brain and the
body’s other regions. In the same way that the brain is protected by the
skull, the spinal column is protected by the vertebrae that comprise the
backbone. Here, nerve cells analyze the signals coming to the body from
the brain, and form complex electrical circuits that determine where and
how they are to be transmitted.
Sometimes the spinal column can perform its duties in a partially
independent manner, without control from the brain. A reflex may be de-
scribed as an automatic, fixed reaction to a specific stimulus. Reflexes al-
low us to react swiftly against risks and threats. The brain normally rep-
resents the human body’s command center, but for emergency situa-
tions, a faster system has been constructed in the nervous system. Many
reflex actions are directed by a group of nerve cells in the spinal cord.
The sudden movements we refer to as reflexes take place extraordi-
narily quickly by means of the circuits in the spinal cord. The very swift
decisions to move come not from the brain, but from the spinal column.
Were this mechanism directed by the brain instead, then when you
touched a hot oven by mistake, there would be a time lag between your
feeling the heat and retracting your hand. Yet you immediately retract
your hand, preserving your fingers from getting burned. Thus the im-
portant spinal cord must be protected in a most secure manner.
We can compare the spinal cord to the cables inside a computer. If
you constantly bend and twist them, they will eventually snap, and your
computer will not work at all. Similarly, the spinal cord transmits impor-
tant data, and every precaution for its protection has been taken. For one
thing, the backbone is much longer than the spinal cord, so that the lat-
ter is entirely encased in bone.
If, for any reason, one or more vertebrae fail to develop fully while
138
Harun Yahya 139
the fetus’s backbone is forming, the result is the condition known as spi-
na bifida, in which significant gaps remain between the vertebrae, and
the spinal cord and nervous system are impaired. Important messages
cannot reach their destinations. The failure of nerves to reach the brain
results in paralysis—an inability to move and lack of sensation.
As we have shown, for our bodies to function fully, every compo-
nent must be fully formed and possess a flawless design. The slightest
alteration here may lead to serious consequences. The measure in the
creation of man is referred to in these terms in the Qur’an:
From what thing did He create him? From a drop of sperm He creat-
ed him and proportioned him. (Surah Abasa: 18-19)
Adnan Oktar
Reflexes must be fast, andso reflex signals movealong the shortest paths.For example, if you treadon something sharp, cellsresponsible for your senseof touch send a signal toyour spinal cord. This sig-nal affects the motor cells,causing you to lift yourfoot. The signal reachesthe brain and is analyzedonly later. This system is one of thecountless ways in whichAllah protects human be-ings.
CELLS THAT ACT WITH OURLORD’S INSPIRATION
Nerve fiber path-ways
White matter
Grey matter
Centralchannel
Spinal cordmembranes
Sensorynerve roots
Motor nerveroots
Spinal cordnerve
Scientists believe that the brain works like a kind of computer, althougheven the most advanced computers are still very elementary compared withthe electrochemical complexity of the human brain. Indeed, the information re-garding the human brain possessed by scientists who invent computers, exam-ples of the most advanced technology, is severely limited. As an article in TheBoston Globe magazine put it, “There is far more we don’t know about thebrain than we know.”1
1 – Pamela Ferdinand, “Brain Power,” The
Boston Globe, December 5, 2004; www.bos-
ton.com/news/globee/magazine/arti -
c l e s /2004 /12 /05 /bra in_pow -
er/?page=3
140
COMPUTER TECHNOLOGY ADVANCES BY IMI-
TATING OUR LORD’S CREATION IN THE BRAIN
Both a computer and the brain can record things in memory.Computers store data on chips, discs and CD-ROMS, while the brainuses neuronal circuits. Computers can be loaded with new programsand storage space, thus expanding their memories. The brain is con-stantly changing and can learn new things. Sometimes, when necessa-ry, the brain can reconstruct its own electrical system. For example,following some incidents of brain damage, unharmed brain tissue cantake over the functions formerly performed by the damaged part.Computers lack such a property, however, despite all the advances intechnology.
The brain possesses a system incomparably superior to that of anycomputer. Our bodies are one of the most perfectly created systems,which perfection is concealed in its details. The structure and depth ofthe brain reveal details that exceed our conceptual abilities. Every fold,every twist and curve in our brains has been created for a purpose.
141
verything we know about the world reaches us by means
of our senses, without which we would be cut off from ev-
erything around us. Your senses let you obtain comprehensive infor-
mation about what is happening in your body, as well as in the out-
side world. You can recognize a friend even you do not see her en-
tire face or if you see her from behind. You can distinguish thou-
sands of different smells and shades of color. You immediately feel a
feather touching your skin, or hear the sound of a leaf falling, and
you need make no effort to do so.
The parts of the sensory organs that collect information about
the outside world are known as receptors. These convert the da-
ta reaching them into electrical currents to be transmitted
to the brain via the nerve cells. The brain interprets these currents, thus
letting you determine the properties of the object concerned. It then
sends commands to other regions of your body, to take action in light of
that information.
Some receptors in the ear react to sounds. Others ensure balance by
reacting to the movements of the head. Receptors in the eye react to light
and color, while receptors inside the nose react to chemical borne on the
air. Receptors on our tongues react to liquids or foodstuffs dissolved in
saliva. The receptors on our skin react to pressure, heat and pain.
Receptors in our muscles and joints react when we move and provide in-
formation about the body’s position.
Our bodies are a marvel of design, but their sensitivity to the out-
side world and ability to react to what is going on is just as extraordina-
ry. Not even the most advanced technological devices have the coordi-
nation necessary for the complex interactions between brain and body.
For example, computers have an encoding mechanism instead of
sensory organs. This mechanism turns information into a series of elec-
trical signals in binary code, which is analyzed by the computer’s proc-
essor, which serves as the computer’s brain. A smoke detector, for exam-
ple, is designed in such a way as to react to rising heat and smoke parti-
cles. The detector turns these data into binary codes, which are then an-
alyzed by the computer processor, and issues commands to the water
sprinkler system to begin working. Although our perceptual systems re-
semble this, they possess ability far beyond merely analyzing automat-
ed commands. For example, when the brain perceives smoke, depend-
ing on the level of the smoke and its source, it can prompt you to open a
window, use a fire extinguisher, evacuate everyone, or phone the fire de-
partment. This demonstrates that man’s creation goes far beyond that of
any technical device.
Harun Yahya 143
Adnan Oktar
THE MIRACLE OF ELECTRICITY IN THE BODY144
How Electrical Signals Are Converted
into Sensations of Touch
Like all other sensations, feelings of touch form when the brain an-
alyzes electrical signals transmitted from the skin cells. When you touch
a piece of cloth, your brain perceives whether it is rough or soft, thick or
thin. Receptor cells in your finger tips send information in the form of
electrical signals, which the brain perceives as sensations of touch. For
example, when you touch a rough surface, you can never know if it is re-
ally rough, because you can never make direct contact with a rough sur-
face. All you know about its surface consists of your brain analyzing spe-
cific stimuli.
When you pick up a ball or touch thestrings of a guitar, no matter how light yourtouch may be, still you detect a feeling ofpressure in your fingers. This light move-ment sets into action thousands of touch-sensitive nerve receptors concentrated inyour fingertips. Together with this pressure,an electrical current begins in special cellscovering the nerve endings near the skinsurface. This current is transmitted to thebrain by nerve fibers at a speed of 130 me-ters (426 feet) a second.
Brain sheath
Spinal cord
Muscle fibers
Movementnerve cells
Millions of receptors of various sensitivities in the skin react to heat,
cold, touch, pain, pressure and motion. These receptors send electrical
signals to the brain and by means of these signals, we obtain informa-
tion about the object we touch.
This book you are holding, together with all its details, is recreated
in your brain. There is a physical book in the outside world, but one you
are interacting with consists of a copy in your brain. The sensations of
touching the book are entirely the analysis of electrical signals.
Therefore, you are actually turning the pages and feeling the texture of
the book in your brain. You can never touch the original book.
The wisdom behind sensitivity levels not be-
ing the same everywhere in the bodyBlind people can read the Braille alphabet with their fingertips, but
not with their knuckles or teeth, for instance. That is because the level of
sensitivity in the fingertips is very much greater.
There are some 640,000 sensitive skin receptors spread over the sur-
face of the body.70 The density of these at the fingertips is 9,000 to the
square inch, and they react in a millisecond to even the slightest friction.
That lets us use our fingers for jobs requiring great sensitivity. Our el-
bows, however, are far less sensitive. There is considerable wisdom be-
hind this: Were things the other way around, it would be exceedingly
uncomfortable to rest your elbows anywhere, since they would feel the
slightest roughness. And you would have to use your elbows to feel the
roughness or smoothness of any surface. The body is specially created to
fulfill all our needs, to be easy to use.
The wisdom behind touch receptors adapting
to constant stimuliTouch receptors react to sudden changes, but soon adapt to fixed
stimuli. The brain is informed about the beginning of a contact and its
end, but there is not such a heavy flow of information about the contact
Harun Yahya 145
Adnan Oktar
THE MIRACLE OF ELECTRICITY IN THE BODY
in between. There is great wisdom in this, because generally we do not
need to be constantly informed about whatever may be touching our
skin. It is sufficient that the touch receptors transmit information only
when there is a change, which makes our lives very much easier. The
ability of touch receptors to adapt quickly to constant stimuli is an im-
portant advantage of the nervous system.71
For example, when you put on your clothes in the morning, various
receptors initially send your brain information concerning their weight,
softness and pressure. But soon afterwards, these messages decrease and
eventually cease, because, as already seen, receptors stop “reporting”
constant stimuli at the same level of intensity. In the same way, when we
first strap on a watch, we feel the coolness of the metal, the thickness and
weight of the strap, but then we soon forget these details. However, if the
strap loosens and is about to fall off, this attracts our attention. In the
same way, receptors in our scalp immediately perceive the change when
we take off our hats off, but our sensations soon adapt to the hat’s re-
moval.
Feeling our clothes and accessories we wear at every moment
would give rise to considerable discomfort. Therefore, the way that our
skin adapts to fixed stimuli is of enormous importance—and a great
blessing from our Lord.
The wisdom behind sensations of pain
Pain is a warning that a part of the body has undergone damage.
Several million of our nerve receptors perceive pain, and the greater the
shock they receive, the more they are stimulated. For example, when you
hit our knee against a table or tread on a fragment of glass, the receptor
cells in our skin react to something that is going to harm you. They send
an urgent message to the brain, and you immediately take steps to es-
cape that discomfort.
Some painful sensations take the form of aches, or of stings, or of
burning. The sensation feeling of being stabbed reaches the brain fast-
est—at 30 meters (98 feet) per second. Receptors that perceive this are lo-
146
147
Feeling pain or discomfort plays a very important role in our lives, becausethese sensations notify us that there is a problem in our bodies. When the re-ceptors in our skin react to things that are harming us and send urgent mes-sages to the brain, we can then take measures to allay that discomfort.
FeelIngs of PaIn and DIscomfort:
A ManIfestatIon of Our Lord’s TItles of
the CompassIonate and MercIful
INTENSE PAIN CHRONIC PAIN
1 A nail thatpierces theskin stimu-lates nerveendings,which send analarm signalall along thenerves in reac-tion to injury.This signal isturned into achemical mes-sage in thespinal cord.
1 When thenerve end-ings are stim-ulated by in-jury, an alarmsignal is sentto the spinalcord andbrain.Pressureplaced on anerve root ornerve fiberhas also thesame effect.
2 Accumulationof messagesproduces newchemical path-ways in thesynapses in thespinal cord.This makes thenerves muchmore sensitiveto pain signals.
2 Chemicalneurotrans-mitters passthese painsignals fromone nerve toanother byway of thesynapses.Thus themessage istransmittedas far as thebrain.
3 After determining the lo-cation, features and inten-sity of the pain, the brainsends messages thatblock the nerve signals inorder to reduce this pain.
3 By preventing the elimina-tion of pain impulses, chronicpain may cause loss of con-trol in an individual. The feel-ing of increased pain stemsfrom this.
THE MIRACLE OF ELECTRICITY IN THE BODY
cated on the outer layer of skin. Burning sensations reach the brain a bit
more slowly, at a speed of 2 meters (6.5 feet) per second.
Behind the different speeds at which these sensations are perceived,
there is great wisdom. For example, the way that we first experience a
bee sting, followed by the gradual arising of a burning sensation, is of
great importance. The stabbing feeling ensures rapid protection against
the threat. No doubt that this is one of the examples of our Lord’s most
wise creation.
The wisdom behind the feeling of pain
decreasing during injury
Some people experience no pain when they are first injured and for
a while afterwards. Even though injured, these people can run away
from the danger or protect themselves. Sensations of pain are transmit-
ted by nerve cells, which contain a substance called “endorphin”, which
eliminates feelings of pain, aching and distress and relaxes the body.
Endorphin is literally a painkiller manufactured in the brain, secret-
ed at the time the pain is felt. Its effect wears off as soon as the initial cri-
sis has been overcome. In this way, even very serious injuries do not
cause violent pain sensations for a certain length of time. Painkilling
drugs function the same way. They do not actually treat most illnesses or
injuries, but are merely chemical substances that prevent us feeling pain.
The decrease in sensations of pain after an injury is another example of
Allah’s mercy on human beings.
The Transformation of Light Energy
into Sight Perception
The phenomenon of sight takes place gradually. Light particles
(photons) pass through the lens in front of the eye, are refracted, and fall
onto the retina at the rear of the eye as a reversed image. There, visual
stimuli are transformed into electrical signals and transmitted by the op-
148
tic nerves to a very small region in the rear part of the brain, known as
the visual center. After undergoing a series of processes, this electrical
signal is perceived in the brain as a visual image.
The two kinds of receptor cells in the eye are known as cone and
rod cells. Rods are so sensitive to light that they enable one to see even
under a pale light. However, in strong normal daylight, they become un-
able to transmit any signal. Cones, on the other hand, function in intense
bright conditions and enable images to be perceived in broad daylight.
When you look at a television screen, for instance, your optic nerve
consisting of 1 million nerve fibers transmits information from your eye
Harun Yahya 149
You blink every two to ten seconds. Youreyes move backwards and forwardsmany times a second as you focus oneach of these words, and your retinasperform tens of millions of computer-likecalculations. These all function so flaw-lessly that you generally never wonderhow it is that we actually see.
Right upper muscle
LIGHT
Double-endedneurons
Multi-endedneurons
Detailed image of the retina
Retina
Optic nerves
Lens
Right lowermuscle
Right middle muscle
Capillary layers
Transparent layer
Pupil
Cornea
Capillary ofthe iris
Eyelid musclePigmentregion
Venouslayer
Synapses Optic nerve
Transparentlaye
Rod and conereceptor cells
Central veinand artery ofthe retin Intermediate links
Colored iris
THE MIRACLE OF ELECTRICITY IN THE BODY
to the brain.72 The stimulation of light from the screen causes a chemical
chain reaction in the retina’s light receptors. As a result, the signals from
the retina stimulate the optic nerves, which in turn stimulate the brain.
Signals sent from the brain travel at a speed of 100 meters (328 feet)
per second and stimulate the muscles controlling the toes, ankles, legs,
shoulders, arms, wrists and fingers. With the perception of an image, re-
actions such as heading towards one’s chair or pressing the remote con-
trol soon follow.
The human eye perceives various colors, ranging from red to
mauve. It cannot perceive frequencies that lie outside this range, such as
infrared or ultraviolet. This is, again, a very wise precaution. If our eyes
were arranged to perceive lower frequencies of light waves instead of
that specific range, then we would end up perceiving blurred images
like those on a radar screen. If our eyes were arranged to perceive high-
er wavelengths, then we would perceive images rather like x-rays.
Through the mercy of Allah, however, the cells in the eye transform on-
ly light waves within those dimensions into electrical signals, and thus
allow us to see such colorful and detailed images.
The Three-Dimensional World That Forms in
the Brain
The brain is exceedingly adept at determining the distance of ob-
jects. Both eyes act in tandem and register images seen from different an-
gles. The difference of angle between the two images helps the brain cal-
culate the distance of the perceived object. The two images transmitted
to the brain are compared and the distance of the object determined.
That is why you perceive this book as a three-dimensional image.
Were it not for that ability, we would see everything double and in a sin-
gle plane. And so, the fields of vision of the two eyes being at different
angles is a very wise result of creation.
Let us imagine that you are watching a tennis match. One of the
150
players easily returns a shot from over the net. Your brain forms an opin-
ion of what the shot is like. The light illuminating the ball, net and rack-
et all reach your eyes simultaneously, without your being aware of it. Yet
what you perceive as a racket or a tennis ball is an image resulting from
collaboration between your brain and a number of electrical signals,
each directed towards the relevant region of the brain. However, there is
no clue in your brain that you are watching this tennis match. Scientists
can describe how the data regarding sight, sound or scent is transmitted
toward the relevant parts of the brain. But what really surprises them is
how these electrical signals are reconstituted within the brain back to
their original form.
Gerald L. Schroeder describes a few of the miraculous aspects of the
phenomenon of sight:
The process of biological information transfer is a tale of awe. Consider just
one aspect of this bodily train of events. How does the brain decide that the
two-dimensional image protected onto the eyes’ retinas represents a three-
dimensional world? After all, the visual image is converted into an array
of electrical stimuli, each of which is a one dimensional pulse of voltage . .
. From where does it get its smarts? 73
As Schroeder emphasizes, the way that electrical impulses carry en-
coded information, and how they are then interpreted as practically
identical to their counterparts in the material world, is the product of a
superior Intellect. The mind that Schroeder refers to belongs to our Lord,
Who created us all and gave us eyes with which to see. This fact is re-
vealed in the Qur’an:
Say: “Who provides for you out of heaven and Earth? Who controls
hearing and sight? Who brings forth the living from the dead and the
dead from the living? Who directs the whole affair?” They will say,
“Allah.” Say, “So will you not guard against evil?” That is Allah,
your Lord, the Truth, and what is there after truth except misguid-
ance? So how have you been distracted? (Surah Yunus: 31-32)
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THE MIRACLE OF ELECTRICITY IN THE BODY
The Transformation of Scent Molecules into
Electrical Signals
How the sense of smell works is similar to that of our other senses.
That part of the nose that can be seen from the outside merely takes in
scent molecules in the air. Flying molecules from a rose or a spoonful of
vanilla come to receptors on vibrating micro-hairs in the region of the
nose known as the epithelium, where they set up a reaction that reaches
the brain in the form of electrical signals, which our brain then perceives
as smells.
152
The upper part of the nose contains two small areas known as the scent epithelia,which contain a great many nerve cells. These regions are responsible for scentdetection. Smells are carried in the air in the form of floating molecules, which en-ter the nose together with air as we breathe. When the scent molecules reach thereceptors in the nose, the cells there are stimulated and send electrical signals tothe brain. The brain has direct dealings only with the electrical signal that reachesit, not with the scent molecules. A person perceives the brain’s interpretation ofthis electrical signal in the form of an odor.
Air
Scent receptors
Scent receptors
Scentaxon
Scent epithelium
Olfactoryextension
Olfactory extension
Image of brain frombelow
Nose cavities
There are astonishing systems in the transformation of the effect
caused by scent molecules into electrical energy. In the sensitive mem-
brane inside the nose are some 50 million nerve cells, each of which con-
tains a large number of proteins. A scent molecule can attach to one of
the protein molecules in these nerve cells for as long as its form dictates.
An electrical polarization thus results in this region, which gives rise to
electrical signals that reach the scent perception region immediately be-
neath the forehead. Here the information from the different cells is ana-
lyzed, and the source of the scent is determined when they are sent to
various brain structures. (For details, see Harun Yahya, The Miracles ofSmell and Taste.)
You are indebted to the sensitive structure in your nose for your
ability to enjoy the smells of newly baked bread, the roses in the garden,
new-mown grass, soil after rain, hot soup, strawberries, parsley, the soap
you use or shampoo. Most people never stop to think about how many
scents they detect each day and how an image of their origin forms in the
mind, thanks to these scents. Yet your sense of smell is one of the most
important factors in your ability to recognize foods and beverages.
Smells from the environment enter your nose with every breath you
take. The human nose has a very impressive ability to analyze a smell it
detects within 30 seconds and to distinguish between 3,000 different aro-
mas.74
Electrical Signals Perceived as Tastes
Our sense of taste analyzes proteins, ions, complex molecules and a
great many other chemical compounds, working non-stop on our behalf
right through our lives. The tongue functions just like a laboratory, ana-
lyzing different chemical compounds. Every food we eat or drink con-
sists of an enormous number of taste molecules. There are hundreds of
thousands of separate chemical substances in every dish we eat. Taste re-
ceptors in the tongue analyze these different molecules with impeccable
accuracy. (For details see, Harun Yahya, The Miracles of Smell and Taste.)
Harun Yahya 153
Adnan Oktar
THE MIRACLE OF ELECTRICITY IN THE BODY
A special design allows this analysis to take place. There are special-
ized cells in the tongue, the first phase of the digestion process, that are
found nowhere else in the body. These cells analyze foodstuffs and trans-
mit data regarding them to the brain in the form of electrical signals,
which the brain again interprets as flavors.
The way that the tongue’s taste-perceiving cells in the system are in
just the right place, numbers and form is an example of their superior
creation. The way that the brain, which interprets the electrical signals,
tells us what we are eating, distinguishes what we are eating on every
occasion, and tells us whether they are bitter, sweet or sour by analyzing
chemicals is one of the miracles of creation in our bodies.
154
Taste buds
Salivagland
Taste buds
Tongue
Nervefibers
Nerve fibers
Papilla
To the right, the papillae that give the tongue its rough appear-
ance, magnified 60 times. Up to 10,000 taste buds comprise the
papillae on the tongue, and there are up to 50 taste cells in each
taste bud.
Any dish of food contains
hundreds, even thousands, of
separate chemical sub-
stances. The tongue identifies
the chemical structures of
countless different molecules
with an astonishing accuracy.
Taste receptors in the tongue
send information regarding
these molecules to the brain
in the form of electrical sig-
nals. The flavor of the orange
or strawberry we eat consists
of an interpretation of this
signal that our Lord forms in
our brain.
Perception of Electrical Signals as Sound
The outer ear collects sounds from the outer world and forwards
them to the middle ear, which reinforces the sound vibrations reaching
it and transmits them to the inner ear. The inner ear then sends them to
the brain by turning them into electrical signals according to their inten-
sity and frequency. After visiting several places in the brain, the messa-
ges are finally transmitted to the hearing center where these signals are
processed and interpreted, and the process of hearing finally takes place.
One of the most surprising things is the speed at which the 20,000
micro-hairs in the channels in the ear react. The middle channel vibrates
at 256 times a second. The channel immediately above it vibrates at 512
times a second, and the channel above that, at 1,024 times. The micro-
hairs’ efficiency in analyzing such fast vibrations allows us to distin-
guish with great sensitivity among musical notes. This constitutes one of
the most sensitive and rapid reactions in the body.
As the brain resolves the sound vibrations of speech reaching it, it
must convert the sound into syllables, and then into sentences, without
being affected by the speaker’s speed, tone or accent. We are generally
Harun Yahya 155
Adnan Oktar
Sound waves formed by vibrating air molecules affect theeardrum. The vibrations that reach this membrane set intooperation a mechanism consisting of three bones, transmit-ting the vibrations to fluid-filled channels whose interior iscovered in micro-hairs. These react to pressure differencesand permit various signals to form. By the mercy of ourLord, these signals are interpreted with great sensitivity inthe brain as a tune, the sound of the wind or a doorbell’sring.
Micro-hairs
Cell
Sensorycortex
Cochleanerve fiber
Membrane
Sound wave
THE MIRACLE OF ELECTRICITY IN THE BODY
completely unaware of this amazing analytical system inside our heads.
The ear’s complex design has frequently been the subject of praise from
scientists.
Of all the organs of the body, few can accomplish as much in so little a
space as the ear. If an engineer could duplicate its functions, he would have
to compress into approximately one cubic inch a sound system that in-
cludes an impedance matcher, a wide range mechanical analyzer, a mobile
relay and amplification unit, a multi channel transducer to convert me-
chanical energy to electrical energy, a system to maintain a delicate hy-
draulic balance and an internal two-way communication system. Even if
he could perform this miracle of miniaturization, he would be unable to
match the ear’s performance. It can set itself to hear the low throb of a fog-
horn at one end of its range and the piercing wail of a jet engine at the oth-
er end. It can make the fine distinction between the music played by the vi-
olin and the viola sections of a symphony orchestra. . . . Even during sleep
the ear functions with incredible efficiency. Because the brain can interpret
and select signals passed to it by the ear, a man can sleep soundly through
noisy traffic and the blaring of a neighbor’s television set and then awaken
promptly at the gentle urging of a chime alarm clock. 75
The ear also performs selective perception. Consider what happens
when you hear the sound of a child crying at night. The sound is sent to
the relevant region of the brain and gradually deciphered there. What
kind of sound it is, and whom it belongs to is determined. Since you
have a long-term memory, this sound seems familiar and you realize that
it belongs to one of your children. With this information your brain now
knows that your child wants help, and carries out preparatory measures
such as the release of adrenaline in order to set your body in motion. All
this encourages you to head directly for your child’s bed. In addition,
your memory tells you where your child’s bed is. This perception and
chain of events, here described in very simple terms, actually involve mi-
raculous biochemical and bio-electrical processes, taking place as the re-
sult of hundreds of thousands of axons, each with thousands of termi-
nals, establishing a connection with a quadrillion (1,000,000,000,000,000)
fibers. You never realize that the brain is deciphering the signals. So how
156
can it be structures of tissue that perceive all this? This question encour-
ages unbiased scientists to reflect upon.
Gerald L. Schroeder, Professor of Nuclear Physics at the
Massachusetts Institute of Technology one of these scientists, questions
the following about the sense of hearing:
And then comes the hard part of the hard question: the sound of music . .
. become[s] converted to bioelectrical pulses that are chemically stored in
the cortex of my brain. But how do I hear the sound?. . .But I don’t hear bi-
ochemistry. I hear sound. Where is the sound generated in my head? Or the
vision; or the smell? Where is the consciousness? Just which of those for-
merly inert atoms of carbon, hydrogen, nitrogen, oxygen, and on and on,
in my head have become so clever that they can produce a thought or re-
constitute an image. How those stored biochemical data points are recalled
and replayed into sentience remains as enigmatic mystery. 76
Schroeder’s use of the term “mystery” is inaccurate. Of course it is
not the brain that perceives the outside world, but the Soul given to man
by Allah. The human mind is not a result of biochemical processes, but
a blessing bestowed on Man by Allah. In one verse our Lord states:
Then [He] formed him and breathed His Spirit into him and gave
you hearing, sight and hearts. What little thanks you show! (Surat as-
Sajda: 9)
Balance and Movement
How do you manage to stand upright, despite the constant tug of
gravity? How can you suddenly turn around without falling over?
Organs at the entrance to the inner ear assist with balance by send-
ing information to the brain about the movement and position of the
head. Head movement causes the liquid in the channels to move and the
micro-hairs to bend, which initiates messages that go directly to the
brain. However, the tissues in this channel react differently to different
movements. One is very sensitive to up and down movement, another
to movements to either side, and another to forward-bending move-
ments.
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THE MIRACLE OF ELECTRICITY IN THE BODY
In the inner ear there is a special mechanism, known as the vestib-
ular system that helps us keep our balance and reports which direction
we are moving in. The vestibular system consists of three tunnels or
semicircular channels and filled with a special fluid. Each channel has a
region covered in hairs—receptor cells. And when we move, the liquid
in the channels flows over the hairs and bends them. This bending is
converted into electrical signals that are sent to the brain, which then de-
codes them to tell us what position we are in.
The reason why we sometimes lose our balance is a shock experi-
enced in the inner ear. When you bend your head or turn it from right to
left, the hairs begin to lean over, and this causes them to move in a very
small fraction of a second in relation to the movement of the head and
muscles. As these hairs move, chemical reactions that take place in the
nerves at the base of every hair produce electrochemical signals that
transfer information to the brain. Subsequently, it combines these sig-
nals—indicating the angle of the joints and contractions in the muscles—
to analyze movement in the body.
158
How are you able to stand upagainst the continual pull ofgravity? How can you turnround quickly without falling
over? Organs in the inner earhelp us maintain our balance by
sending information about the movementand position of our head to the brain. Headmovement causes the fluid in the canals tomove and the micro-hairs to bend, initiatingmessages that go directly to the brain. Thethree channels are located perpendicular toone another, so that they react to differentmovements. One is very sensitive to verticalmotion, one to sideways movements, andthe other to bending.
This system in the ear works together with receptors in the eyes,
neck, muscles and tendons. On its own, none of these is sufficient for a
person to remain on balance. When you look out the window of a sta-
tionary train and see another train pulling out, your eyes will provide in-
formation as if you were actually moving. However, other nerve recep-
tors in your body will report just the opposite and let you perceive your
surroundings correctly. In this way, you realize that you are standing still
and the other train is in motion.
Of course the process of the brain putting these data together actu-
ally takes place thanks to the flawless communication transmission of
more than a billion axons. Our bodies’ equilibrium is the product of a
conscious creation, as revealed in the Qur’an:
The kingdom of the heavens and Earth belongs to Allah. Allah has
power over all things. (Surah Al ‘Imran: 189)
Similar Signals Carry Very Different Messages
The common feature in our sense organs all turn the electrical stim-
uli reaching them into electrical signals and forward them to the relevant
sense centers in the brain. At this point, we find a most surprising fact:
All of the messages the brain received from the sense organs consist of
the same kind of signal. All the stimuli transmitted to various centers in
the brain are in the form of electrical currents, yet these identical currents
contain very different information and cause different effects in the dif-
ferent centers of the brain—which is most astonishing.
In her book The Human Brain, Susan Greenfield draws attention to
this extraordinary situation:
Another tantalizing and related mystery of the brain is why electrical sig-
nals arriving the visual cortex should be experienced as vision, while ex-
actly the same kind of electrical signals, arriving in another part of the
brain such as the somatosensory cortex or the auditory cortex, should be
perceived as touch and hearing respectively.77
The truth that Greenfield describes as a “mystery” is quite obvious:
Harun Yahya 159
Adnan Oktar
THE MIRACLE OF ELECTRICITY IN THE BODY
The functions of our sense organs were brought into being with a flaw-
less creation, just like all the other systems of our bodies. Our Lord has
arranged matters in the same way that He produces plants and fruits
with very different tastes, colors and smells from the same black soil, He
has also ensured that identical signals are perceived in totally different
ways in our brains, making us able to perceive the colors, scents and tast-
es in the outside world.
Conclusion:
The Perceptual World Created in Our Minds
The subject matter of this chapter, the way the signals collected by
our sense organs are perceived in the brain, shows us another important
160
Electrical Signals: The Language of theBrain
When light strikes a cell in the retina, orwhen a sound wave stimulates a receptorcell in the ear, these impulses are turnedinto electrical signals—the language ofthe brain. The speed, flawlessness andcomplexity of this transformation and
translation leave scientists speechless.
fact: we can never have direct contact with the outside world itself. There
is matter outside us, whether we see it or not. But we can never make di-
rect contact with it. The world we have direct experience of consists of
interpretations of electrical signals in our brains. (For detailed informa-
tion, see Harun Yahya, The Other Name of the Illusion: Matter, Istanbul:
Kultur Publishers, 2002,Harun Yahya, Idealism: The Philosophy of theMatrix, and The True Nature of Matter, Maryland: Khatoons Inc., 2003)
As mentioned earlier, what you perceive as the outside world is
merely an effect in your brain created by electrical signals. The blue of
the sky you see from your window, the softness of the chair you sit in,
the aroma of the coffee you drink, the tastes of the food you eat, the
sound of the telephone ringing, your nearest and dearest, and even your
own body are all interpretations of electrical signals in the brain.
Professor of Nuclear Physics Gerald L. Schroeder, refers to this in these
terms:
Wiggle your toes. Feel them? But where do you feel them? But where do
you feel them? Not in your toes. Toes feel nothing. You feel them in your
brain. Anyone who has had the misfortune of having. . . . The brain has
within it maps if the body that record every sensation and then project that
sensation onto the mental image of the relevant body part. But it certainly
feels like I’m feeling my toes in my toes. And it is not just the toes. The en-
tire reality, what we see and what we feel, what we smell and what we
hear, is mapped in the brain and then those recorded out to out conscious-
ness from within the two-to-four millimeter (about one-eight inch) thin
wrinkled gray layer, the cerebral cortex, that rests at the top of each of our
brains. There is a reality out there in the world, but what we experience—
every touch and every sound, every sight, smell and taste—arises in our
heads. All our mental images, fantasy or factual, are built on our life’s ex-
perience.78
The conclusion we arrive at is a scientifically proven fact. For any-
one to believe, in the face of all the evidence, that he or she can have ac-
tual direct experience of the outside world is rather like believing that
the characters in a television program are real.
So where does this fact about the essence of matter lead us?
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THE MIRACLE OF ELECTRICITY IN THE BODY
Who is it who, in a tiny space and without the need for an eye, ret-
ina, lens, optic nerves or pupil, perceives electrical signals as a bright
garden, and takes pleasure from that?
Who is it who, in a brain which no sound enters, perceives electri-
cal signals as a delightful melody?
Who is it who, without the need for hands, fingers or muscles, per-
ceives electrical signals in the brain as the softness of velvet?
Who is it who experiences sensations such as hot, cold, texture,
form, depth and length as identical to their originals?
Who is it who, in the brain which no smells enter, distinguishes the
scents of many different flowers, or who becomes hungry on smelling a
favorite food?
To whom does the consciousness that will interpret all you see and
feel belong? And who is the conscious entity who watches all these im-
ages, reflects, draws conclusions and makes decisions?
Clearly, it cannot be a brain consisting of water, fat and proteins,
made up of unconscious molecules perceiving all these. Every rational
person of good conscience will immediately grasp the existence of an en-
tity or soul that watches all the events throughout the course of one’s life
on the screen within his brain. Every human possesses a soul capable of
seeing without eyes, hearing without ears, and thinking without the
need for a brain. It is Almighty Allah Who created the world of percep-
tions of which the soul has direct experience and Who continues to cre-
ate at every moment.
In one verse it is revealed that:
Clear insights have come to you from your Lord. Whoever sees clear-
ly, does so to his own benefit. Whoever is blind, it is to his own det-
riment. (Surat al-An’am: 104)
162
Our LIfe, No DIfferent from a Dream
What is the difference between dreams and real life? Dreams, generally, arelogically contradictory and inconsistent compared with what we perceive inthe real world. Apart from that, however, there is no difference, technicallyspeaking. Both form as a result of the stimulation of sense centers in the brain.
One encyclopedic source describes how dreams and reality are experi-enced in the same way:
Dreaming, like all mental processes, is a product of the brain and its activity. Whether
a person is awake or asleep, the brain continuously gives off electrical waves. Scientists
measure these waves with an instrument called an electroencephalograph. At most
times during sleep, the brain waves are large and slow. But at certain times, they be-
come smaller and faster. During periods of fast brain waves, the eyes move rapidly as
though the sleeper were watching a series of events. This stage of sleep, called REM
(Rapid Eye Movement) sleep, is when most dreams occur. If awakened during REM
sleep, the person is likely to recall details of the dream. . . During REM sleep, the path-
ways that carry nerve impulses from the brain to the muscles are blocked. Therefore,
the body cannot move during dreams. Also, the cerebral cortex-the part of the brain
involved in higher mental functions-is much more active during REM sleep than during
non-dreaming sleep. The cortex is stimulated by neurons (nerve cells) that carry im-
pulses from the part of the brain called the brain stem.1
Both real life and dreams are ensembles of perceptions that form by the in-terpretation of impulses reaching the relevant centers in the brain.
164
1. World Book Multimedia Encyclopedia, “Dream”, World Book Inc., 1899
Allah’s ProtectIon on Us:
the Concentrat›on MechanIsm
The brain is where the body’s alarm system starts. An alerted brain em-ploys a special mechanism at moments of danger. If the brain receives an im-pulse that might constitute a threat—such as growling from a bush it signalsthe adrenal glands to secrete adrenaline. The brain becomes an activated scan-ner, halting all unnecessary activities.
The brain waits for something to react to, looking to detect regular impuls-es from its surroundings. This process is mainly discharged by an automaticmechanism in the brain—the concentration mechanism that is part of ourLord’s protection of us. When we become distract-ed, we can encounter a great many problems,such as hurting ourselves, misunderstandingand other difficulties. But sharpening of ourconcentration, particularly when it is mostnecessary and the body going on alert letsus protect our health and live in safetywith our environment. This is theinfinite protection of our Lord.
165
he development of the human body inside the moth-
er’s womb takes place according to a blueprint, just like
the construction of a building. Yet this blueprint is far more wide-
ranging than any architect may be familiar with. In the same way
that you need to calculate electrical wiring before plumbing in
planning a building, so the systems that will constitute the infra-
structure of the human body must also be considered, and growth
must proceed in light of all these details.
One of these essentials is the body’s nervous system. During
the emergence of this electrical facility, a huge number of details
must be borne in mind, such as the neurons that form the nerve fi-
bers extending to all parts of the body, establishment of connec-
tions between these nerve fibers and the brain, the back-
bone opening enough to let the spinal cord
to pass through it, and for countless neurons to be organized so as to ful-
fill the functions of the brain.
Yet the cells themselves possess no such blueprint or project, and
have no conscious engineer or architect to direct them. Nonetheless, cells
know just what part of a human being to form and when to cease their
activity. Embryonic cells act in a pre-programmed manner, producing
their own materials, are organized within a perfect plan, and carry out
the actual construction work themselves. To claim that this extraordina-
ry planning was carried out spontaneously by unconscious collections of
cells would doubtless be irrational. It is impossible for a sound structure
to come out of an unregulated workshop, even if the blueprint and ma-
terials are known. This flawless design in our bodies is Allah’s, and this
construction happens with His inspiration of the cells:
Does man reckon he will be left to go on unchecked? Was he not a
drop of ejaculated sperm, then a blood-clot which He created and
shaped, making from it both sexes, male and female? (Surat al-
Qiyama: 36-39)
The Timetable of Flawless ConstructionThe first cell that will give rise to a brand-new human being forms
when an egg cell from the mother combines with a sperm cell from the
father (for details see Harun Yahya, The Miracle of Human Creation, New
Delhi: Goodword Books, 2003). In the first stage of this miraculous de-
velopment, cells begin to divide until they number in the millions. The
cells, which initially resemble a sphere of tissue in the mother’s womb,
continue dividing and coming together in specialized groups. They con-
tinue forming light-sensitive eye cells; nerve cells able to perceiving bit-
ter, sweet, pain, heat and cold; ear cells that will detect sound vibrations,
stomach and intestinal cells that will digest foodstuffs, and all the other
necessary tissues and organs.
The first structure to take form in an embryo is the central nervous
system. Later it develops further, giving rise to the brain and spinal cord.
Only two and a half weeks after fertilization, a lengthy cavity can be
Harun Yahya 167
Adnan Oktar
THE MIRACLE OF ELECTRICITY IN THE BODY168
seen, caused by cells moving in-
wards from the periphery. By
the third week, this cavity clos-
es up; forming a cylindrical
tube that belongs to the nervous
system. The embryo itself,
meanwhile, is still less than 2
millimeters (0.078 of an inch) in
length.
In the third or fourth
weeks, the heart starts to beat,
yet not by means of any stimuli
from the brain or central nerv-
ous system. It begins beating by
way of impulses from the re-
gion immediately beneath the
brain itself, which will subse-
quently develop into the head.
Approximately one day
later, two protrusions from the
brain begin emerging that will
later form the eyeballs. In this
sense, the eyes are outward ex-
tensions of the brain.
By the thirty-fifth day, the
brain’s cortex, regarded as the
Harun Yahya 169
Nine months after fertilization, most of the neurons that
will make up our brain have multiplied and become ready
to pass to the relevant area of the brain. When they reach
their target, each neuron sends out roots and begins es-
tablishing communication with neighboring neurons.
The fertilization of the egg by the sperm be-
gins with a change in the electrical poten-
tial in the cell membrane. At the very mo-
ment that the sperm cell combines with the
egg, the ion channels in the egg are activat-
ed. As a result of the change in potential in
the egg cell’s membrane, other sperm cells
are unable to penetrate it. The electrical
balance in our bodies is of special impor-
tance in the fertilization process, the first
phase of creation.
THE MIRACLE OF ELECTRICITY IN THE BODY170
center of conscious thought in a human, can be seen with the naked eye.
The brain slowly keeps growing, the beginning of a process that will last
for years. At birth, the volume of a baby’s brain is a quarter of that of an
adult. There is very definitely great foresight in this, given the narrow-
ness of the birth canal through which the baby must pass. In the sixth
month after birth, the baby’s skull has reached half its eventual size, and
three quarters of it by the end of the second year.
In the fourth year, the human brain is four times the size it was at
birth, in other words 1,400 cubic centimeters. It is of course impossible
for a collection of cells to know how little they need to grow in order to
be able to leave the mother’s body without difficulty, nor to prefigure
this in such a flawless manner. Their intelligent action is just one of the
signs of their acting through the inspiration of Allah, the Compassionate
and Merciful.
Some 5,000 neurons a second are produced in the spinal cord,
which forms during the fifth week of development in the womb.79 The
brain will later form in this region. By the moment of birth, the number
5th week
The formation of
the nervous sys-
tem:
From the fifth
week, cells in the
upper part of the
embryo begin
thickening around
the central line of
the body. Two lay-
ers and a tube form
here. This is the in-
itial formation of
the brain, to which
the spinal cord and
nerve fibers later
attach.
of neurons in the brain has reached one hundred billion.80 A large part of
the brain cells form during the embryo’s first five months, and each one
takes its necessary place before birth. Shortly afterwards the cells, which
divide at great speed, start migrating to form the extensions of the cen-
tral nervous system.
Migration, of course, is an extraordinary ability for an unconscious
cell. The way that a cell senses the need to move to a specific location,
determines its way there without getting lost, and stops when it reaches
its destination are astounding phenomena. It is impossible for a cell con-
sisting of fat and protein to decide spontaneously to migrate, and to do
so for a particular purpose. This is an indication of Allah’s dominion
over us, and just one of the infinite examples of His knowledge.
It is essential that each neuron should find its target, determined for
it in the nervous system. Young neurons need guides, therefore, to show
them the way to go. These “guides” are special cells that stretch like ca-
bles in the spinal cord and developing brain. Each cell quickly sets out
for its target organ. Neurons emerge from the site where they are pro-
duced and migrate by attaching to these guides, until they arrive at the
place they set out for, and settle there. Immediately after, they establish
contact with other neurons to form connections among one another.
Throughout this journey, the neurons are accompanied by trillions
of support cells known as glial cells. But how do neurons know, as soon
as they come into existence, that they will be setting out on such a jour-
ney? How do they realize they will need guides to find their destina-
tions, and what kind of cooperation they must engage in? These neurons
are cells made up of molecules, too small to be seen with the naked eye.
They can’t possibly take their places in such a conscious manner, of their
own free will. Nor is the brain the center that directs this process, be-
cause the brain of the embryo in the womb has not yet formed. The con-
scious behavior here clearly proves the existence of a conscious creation.
The way that some cells in the brain turn into glial cells is also mi-
raculous. These cells are present in large numbers in the brain, and they
number ten times more than the neurons. One kind of glial cell are the
Harun Yahya 171
Adnan Oktar
THE MIRACLE OF ELECTRICITY IN THE BODY
macrophages, cells responsible for cleaning up the remains of dead cells
in the brain. Another class of glial cell constitutes a fatty layer around
neurons, acting as a kind of electrical insulation. Another kind of glial
cells, found everywhere and known as astrocytes because of their star-
like shape, protects the neurons, acting like a kind of sponge to soak up
excess toxic chemicals. When the neurons themselves are actively dam-
aged, astrocytes work twice as hard, doubling in size and number to
maintain the high levels of substances needed to repair the damage.
172
Root nervecells
Root nervecell
Newly formedneuron
Half the cellsdie
Astrocyte Neurons
Sparse dendrites
Glial cells
Root cells’ migratorypath
Ventricles
Hypocampus
Extensionslinked toscent per-ception
The brain must be able to function from the moment of birth if a person is to en-
joy a normal life. Therefore, the number of neurons in the brain of a newborn is
the same as that in an adult, even if the connections between them have not yet
been completed. During the development of the fetus, the brain produces around
360 million new cells a day.
Harun Yahya 173
Each one of these important tasks is carried out by cells invisible to the
naked eye.
While all these activities are taking place, around 5,000 incompara-
bly complex cells a second continue to be produced.81 Structures such as
DNA, RNA, ribosome, proteins and ion channels are all present, perfect-
ly constituted, in every cell. That all these cells, multiplying at such a
rapid rate, know where they have to be, what their function will be, and
what features they must possess as components of a given organ, is most
striking. Moreover, cells belonging to every tissue produce proteins that
determine the particular character of those cells. For example, brain cells
produce proteins that help transmit electricity. Another miraculous phe-
nomenon is how a cell knows which organ it will be a part of and what
kind of activity it will perform, and that it must produce proteins to meet
those requirements. But only when all these details come together can
perfect system actually function. Therefore, in the human body there are
a great many more detailed marvels that we haven’t considered here.
By the eighth week, all the fundamental parts of the body have de-
veloped, and the embryo turns into a fetus. At this point testosterone is
produced, enabling brain development to continue according to the em-
bryo’s gender. In the following weeks, the frontal part of the brain di-
vides into two hemispheres. In the 11th week, the rear part develops in
such a way as to form the very visible cerebellum. Cavities in the brain
known as ventricles eventually form an interconnected labyrinth open-
ing to the spinal cord. Pores in this labyrinth permit a colorless fluid to
travel and wash the spinal cord and the brain for the entire lifetime.
By the twentieth week, nerve connections emerge between the
brain’s outer cortex and the baby’s body. Over the next five weeks, con-
nections between the sensory system and the brain are completed.
A large increase in the substance myelin, the brain’s insulation, is
observed in the first months after birth. As soon as the axons have been
insulated, they begin carrying electrical signals much more efficiently.
We are able to carry out a delicate movement only through the neurons
in the brain working efficiently. The axons continue being insulated with
Adnan Oktar
THE MIRACLE OF ELECTRICITY IN THE BODY
myelin until the age of fifteen, or even later.
The way that such a complex nervous system and command center
emerge from the union of two microscopic germ cells, the egg and
sperm, is a miracle of creation. As soon as the cells emerge, they act in
one direction only, in the light of the information inspired in them. It is
evident that none of the events that occur during the formation of the
brain and nervous system could come about by chance. A deficiency in
any single phase would impair the whole system. The way neurons
emerge and grow into a network is just one of the stages in the develop-
ment of the brain, yet it is impossible for even a single neuron to come
into existence by chance, let alone the whole brain, as evolutionists
would have us believe.
174
Electrical charge is of
great importance in a
sperm cell’s combining
with an egg. The egg al-
ways has a negative
charge. Sperms, on the
other hand, are positive-
ly charged. Since oppo-
site charges attract, the
egg draws all the sper-
matozoa toward it.
However, once the first
sperm has penetrated it,
that electrical charge
suddenly changes. Like
the sperm, the egg now
has a positive electrical
charge. Since like char-
ges repel one another,
the egg begins to repel
all other sperms once the first penetration has occurred.
If the egg and sperm had the same electrical charges right from the outset, then the
egg would repel all the spermatozoa, and none could get close to it. As you can see,
there is an extraordinary balance and calculation in the combining of a single sperm
and egg.
Harun Yahya 175
Susan Greenfield describes this extraordinary state of affairs in the
creation of human beings:
Clearly, the single fertilized egg is not conscious, so when would con-
sciousness suddenly intervene? And how can a fetus be conscious?
Another idea might be that the baby becomes conscious precisely as it is
born. So is it the act of birth itself that evokes consciousness? It seems hard
to accept this line of thought as the brain itself is completely unaffected by
the birth process . . . On the one hand, there are very specific questions to
be resolved, such as how a neuron knows when to alight from its glial
monorail to the correct region of brain, and how it recognizes similar neu-
rons with which it will team up into. On the other hand, there are more
general puzzles that remain complete enigmas. At what stage does indi-
viduality creep into the developing brain? How does the collection of cir-
cuits of neurons give rise not just to an individual brain but an individual
consciousness? What might a fetus be conscious of? 82
It is our omniscient Lord Who creates the neurons with all their
properties, Who gives them the correct form at the correct moment, and
installs them where they are to go. Everyone—whether they reflect on
this or not—was created by going through the stages here outlined in
general terms. Before the body was even aware of itself, all the necessa-
ry systems were created within it. In addition, they had no responsibili-
ty to function as an ordered system. This perfect order in our bodies is
just one of the innumerable examples of our Lord’s mercy on us. The
miracle of human creation is revealed in these terms in the Qur’an:
We created man from the purest kind of clay; then made him a drop
in a secure receptacle; then formed the drop into a clot and formed
the clot into a lump and formed the lump into bones and clothed the
bones in flesh; and then brought him into being as another creature.
Blessed be Allah, the Best of Creators! (Surat al-Muminun: 12-14)
Do you then disbelieve in Him Who created you from dust, then
from a drop of sperm, and then formed you as a man? He is, howe-
ver, Allah, my Lord, and I will not associate anyone with my Lord.
(Surat al-Kahf: 37-38)
Adnan Oktar
THE MIRACLE IN CELL MIGRATION
Among cells’ most important abilities are those of growth, var-
iation and multiplication. There is an electrical charge around every
cell membrane, which acts from inside the cell to the outside, and
many of the stages in cell division are stimulated electrically.
During the course of development in the mother’s body, mil-
lions of cells must assume their predetermined places. To that end,
the cells journey to the target destinations set out for them in the em-
bryo. The timing is just as important as the destinations. A position-
al error of just 1/100 of a millimeter (0,000,393inch), or an error in
timing of just 1/100 of a second could lead to organs forming in the
176
During the process of cell
variation, cells behave just
as if they know their du-
ties—not only in terms of
the proteins they produce,
but their forms also change
for the duties they will un-
dertake in future. Cells that
will become nerve cells ac-
quire an extended structure
so as to be able to transmit
electrical signals. Joint
cells become spherical, a
shape well-suited to resist-
ing pressure. Through
Allah’s inspiration, all these
cells know their own tasks,
and are created with a de-
sign appropriate to them.
Nerve endingsMessages
transmitted
along the
spinal cord
56th day
wrong place. The system functions perfectly, however, so that no er-
ror is ever made.
The cells make a long journey inside the embryo following a
special path. Upon reaching their destination, they recognize it and
stop. In other words, billions of cells know beforehand the routes
they need to take and their destinations, and decide to halt when
they reach the places where they belong. There is never any confu-
sion in all this. For example, stomach cells and liver cells never be-
come mixed up, nor do the perfectly functioning internal organs. In
this way, the initial embryo slowly assumes human form. Not the
slightest irregularity or disorder emerges during this entire process.
Here, the migrating cells and those they will adhere to at their
destination literally recognize one another. It has been observed that
as the nervous system develops, billions of neurons try to locate
their partners so as to attach to one another. They also combine to-
gether in a perfect design to determine the final form and structure
of the organs they constitute. For example, brain cells establish
around 120 trillion electrical connections to permit the necessary
communications between them. It is not hard to imagine the conse-
quence of a single connection error or short circuit in a system of
such perfection.
It is impossible for unconscious cells, lacking the ability to
think and plan, to act in harmony with one another and cooperate
with such immaculate calculation. It is Allah, the Sovereign of all,
Who shows these cells the path they must follow and ensures that
every one reaches its destination.
What! Are they in doubt about the meeting with their Lord?
What! Does He not encompass all things? (Surah Fussilat: 54)
177
ne frequently encountered evolutionist scenario is that
human beings and apes being descended from a com-
mon ancestor. Through imaginary drawings and stories, the
written and visual media encourage the myth that apes with a
stooped posture gradually turned into upright walking human
beings.
More than 6,000 ape species have lived during the course of
geologic history. A great many of these became extinct and van-
ished. Today there are only 120 living ape species. But fossils of
the 6,000 or so extinct species form a rich source for evolutionist
tall tales.
Evolutionists have selected out the skulls and other bones of
those ape species, from small to large, that most suit
their purposes and have then added
skulls belonging to a few extinct human races, to write the fictitious sce-
nario of human evolution, which states that human beings and present-
day apes share common ancestors. These creatures gradually evolved,
with some giving rise to present-day monkeys. And another group, fol-
lowing another branch of development, gave rise to present-day human
beings.
The fact is, however, that all the paleontological, anatomical and bi-
ological findings show that this claim is totally unfounded. There is ab-
solutely no concrete evidence of any familial relationship between man
and apes—apart from falsehoods, dis-
tortions, sleight of hand, and mis-
leading sketches. (For detailed in-
formation see, Harun Yahya, TheEvolution Deceit and Harun
Yahya, Darwinism Refuted).
Harun Yahya 179
IMAGINARYDRAWINGS
THE MIRACLE OF ELECTRICITY IN THE BODY
The fossil record shows that human beings have been human and
apes have been apes right from their beginnings. Some of the fossils
that evolutionists seek to depict as belonging to the ancestors of
Man belong to old human races that survived until very recent
times, until 10,000 years ago, for example. Furthermore, a great
many human communities still living today have the same phys-
ical appearance and characteristics as these “extinct” human ra-
ces.
Most important of all, there are countless anatomical differ-
ence between apes and human beings, and could not have come
about through evolution.
The Evolution of the Human Brain:
A Blindly Supported Darwinian DogmaEvolutionists maintain that man evolved from some ape-like ances-
tor, and that our brains grew and developed during the course of this im-
aginary process. According to them, the growth of our brain is an evolu-
tionary adaptation. Again according to this claim, random mutations
and natural selection, with no purpose or objective, are responsible for
this same evolution. The “fact” that Darwinists resort to most frequent-
ly to support these claims is the succession of skulls they have arranged,
all in the light of their own preconceptions, from smallest to large.
Various sources constantly present us with this claim and imagi-
nary diagrams. However, all the propaganda regarding the evolution of
the brain is invalid. In fact, the skulls included in the illusory human
family tree reveal no ordered progression at all, contrary to what we are
led to believe. Moreover, the processing capacity in the human brain is
very superior to apes’, and its design extremely complex. These abilities
are used as inspiration by computer engineers as they develop new de-
signs. The claim that such a sophisticated organ developed and
“evolved” through random mutations is utterly ridiculous.
Firstly, it needs to be made clear that there is no direct correlation
180
SI
Adnan Oktar
BALANCE
IGHT HEARING
SLEEP
TOUCHSMELL
MOVEMENT
SPEECH
TASTE
In order for us to lead healthy lives, billions of connections have to have been es-
tablished in our brains, without the slightest defect. Any interruption or error in
these connections may lead to various diseases or handicaps. In order for this
design to come about in the human embryo, formed by the division and multipli-
cation of a single cell, each cell must be in the right place. The right connections
must be established between them, and they must all be kept in a structure that
will preserve them. None of these stages takes place without conscious direction
and planning.
Finally, since a network of neurons that will constitute the brain is also required,
each cell acquires a different structure according to its function. In order for this
network to be interconnected, it needs a system that can perform many tasks at
the same time.
THE MIRACLE OF ELECTRICITY IN THE BODY
between brain size and functionality. The well-known linguist David
Bickerton describes the situation:
The average human brain size is between 1,400 and 1,500 cubic centime-
ters, representing a range of roughly 1,000 to 2,000 cubic centimeters. This
wide variation seems not to correlate with any differences in intelligence.
There are people with brains of 2,000 cubic centimeters, like Oliver
Cromwell, and there are people with brains of 1,000 cubic centimeters, like
Anatole France. Was Oliver twice as smart as Anatole? The question does-
n’t make sense. Those at the lower end of the scale have as great a com-
mand of language and the same kind of mind and consciousness and intel-
ligence as anyone else.83
Since there is no direct correlation between brain size and intelli-
gence, there can be no significance to any claim of evolution based on ce-
rebral dimensions. This shows that claims that the brain grew in size in
response to needs is based not on any scientific observation or evidence,
but on blindly supported Darwinism.
In addition, evolutionary scenarios based on brain size are also in-
ternally inconsistent. One major inconsistency is that so-called primitive
humans possess rather large brains in comparison with the status of ape-
man ascribed to them. According to the scenario, creatures living in an
almost identical manner to apes have large brains, which contradict the
logic of evolution.
Charles Darwin himself first identified this inconsistency.
In 1869 Alfred R. Wallace, a naturalist who developed the theory of
natural selection together with Darwin, wrote to Darwin expressing his
concern that natural selection could not account for the human brain:
Natural Selection could only have endowed [the so-called] savage man
with a brain a little superior to that of an ape, whereas he actually possess-
es one very little inferior to that of the average members of our learned so-
cieties.84
Darwin immediately realized that this posed a threat to his theory,
because the human brain he had branded as allegedly primitive was
very much larger than that of the primitive man predicted by his own
theory. In his response to Wallace, Darwin warned,
182
I hope you have not murdered completely your own and my child [the the-
ory of evolution].85
None of the fossils discovered since then have eliminated Darwin’s
fears. For these reasons, when asked why and how such a complex or-
gan as the human brain developed in primitive man, the evolutionist pa-
leontologist Richard Leakey replied, “I have not the slightest idea.” 86
183
Adnan Oktar
Evolutionists have created the scenario of human evolution by arranging skulls
belonging to extinct species of ape and various human races according to size,
from small to large. However, the attempts to establish a family relationship be-
tween Man and ape have gone no further than fraud, distortion, sleight of hand,
deceptive illustrations and fantastic interpretations. These evolutionist scenarios
are refuted by all paleontological, anatomical and biological findings.
1- Australopithecus boisei
2- Homo habilis
3- Homo ergaster
4- Homo erectus
5- Homo sapiens neanderthalensis
6- Homo sapiens sapiens
THE MIRACLE OF ELECTRICITY IN THE BODY
Skulls Laid out in Order of Size Constitute
No Evidence of EvolutionThe skull sequences drawn up by Darwinists to defend the evolu-
tion of the human brain actually constitute no scientific evidence. In fact,
no evolutionary link has been scientifically demonstrated to exist among
them. This link exists solely in the minds of those who set the fossils out
in these sequences.
One authority to express this openly is Colin Patterson, chief pale-
ontologist at London’s Natural History Museum. He has frequently
made it clear that Darwinism is supported for philosophical reasons. In
an interview, Patterson said that the series that people are so fond of por-
traying as having existed are actually nowhere to be found in the fossil
record. He went on to say:
If you ask, “What is the evidence for continuity?” you would have to say,
there isn’t any in the fossils of animals and man.87
The inconsistencies in the ficti-
tious family tree also appear in the
mechanism suggested for the al-
leged evolution of the brain, with
its complex structure and vital
functions. Maintaining that so
complex an organ could develop
through a blind mechanism such
as random mutations is meaning-
less. Radiation and mutation ex-
pert James F. Crow describes the
position:
A random change in the highly
integrated system of chem-
184
ical processes which constitute life is certain to impair—just as a random
interchange of connections [wires] in a television set is not likely to im-
prove the picture.88
The human brain has a far more complex design than that in the
most advanced modern technology. World-famous computer companies
hold seminars for their engineers about the organization inside the
brain, and encourage them to draw inspiration from the brain for their
new designs.
Harun Yahya 185
Adnan Oktar
Darwinists use the variety in the fossil record and the differences between human
races to account for the origin of life. According to their claims, apes came to as-
sume a human form as the result of small, coincidental changes over time. Under
this logic, there should have been a great many intermediate forms until man as-
sumed his perfect state, and there should have been many stages bearing semi-
animal and semi-human characteristics. Yet apart from a few distortions or false-
hoods in the scientific literature that have been exposed as frauds, evolutionists
have nothing to propose. No transition from ape to man, of the kind evolutionists
claim, ever happened. Right from the very outset, apes have always been created
as apes, and human beings as rational, sentient human beings.
THE MIRACLE OF ELECTRICITY IN THE BODY
The late biochemist and science writer Isaac Asimov says this:
And in Man is a three-pound brain which, as far as we know, is the most
complex and orderly arrangement of matter in the universe.89
Considering the perfection of the brain’s creation, the nonsensical
nature of the claim that the brain is the work of blind coincidences is
plain. Indeed, no evolutionist asked “How?” has ever been able to find
a logical answer, and many have admitted that this scenario is untena-
ble. For example, Henry Fairfield Osborn, speaking at an American
Association for the Advancement of Science meeting, felt the need to say
this:
To my mind the human brain is the most marvelous and mysterious object
in the whole universe. 90
And he spoke these words in 1929, when we knew incomparably
less about the brain than we do today.
The well-known biologist Jean Rostand says that no matter how
long a time frame was involved, he still finds the concept of the human
brain emerging through evolution impossible to believe:
No, decidedly, I cannot make myself think that these “slips” of heredity
have been able, even with the cooperation of natural selection, even with
the advantage of the immense periods of time in which evolution works on
life, to build the entire world, with its structural prodigality and refine-
ments, its astounding adaptations . . . I cannot persuade myself to think
that the eye, the ear, the human brain have been formed in this way.91
Lyall Watson, an evolutionist anthropologist, states that he doesn’t
know how a human being with a large brain could have emerged in sta-
ges:
Modern apes, for instance, seem to have sprung out of nowhere. They have
no yesterday, no fossil record. And the true origin of modern humans—of
upright, naked, tool making, big-brained beings—is, if we are to be honest
with ourselves, an equally mysterious matter. 92
This all goes to show that claims of the human brain emerging
through evolution are based on no scientific foundation. They are mere-
ly imaginary scenarios stemming from philosophical preconceptions. To
186
Harun Yahya 187
maintain that the human brain, with a design that no technology is able
to match, emerged as the work of chance is equal to claiming that com-
puters were not designed by engineers, but came into being by metals
and plastics combining haphazardly together. A more consistent, logical
approach would be to accept that since computers must have designers,
then the brain’s infinitely superior design must have been designed, too.
The evident truth is that the brain’s design is Allah’s creation.
Adnan Oktar
One evolutionist scenario frequently encountered is the myth that human be-
ings are descended from apes. Right from childhood, people are indoctrinated
through fantastic illustrations and tales with the idea that apes, with their
stooped gait gradually evolved into human beings able to walk upright. This
cunning propaganda attempts to give the impression that evolution is an in-
disputable fact and that human beings exist as the result of a chain of coinci-
dences. This organized scientific fraud that Darwinists offer to deny the fact of
creation is full of countless illogicalities.
Yet there is no need to know all the details of evolutionist claims to see the il-
logicalities here. One single human attribute is sufficient to show how irra-
tional it is to claim that chance has any creative power.
Australopithecus
Homo habilis
Homo sapiens
Homo erectus
THE MIRACLE OF ELECTRICITY IN THE BODY
Chance Cannot Ensure the Protection of the BrainSince the brain controls our entire body, the slightest damage that
might occur to it could give rise to irreparable consequences. Since a mil-
limetric amount of damage can harm an enormous number of cells and
connections, there would be serious repercussions in such fundamental
processes as movement, perception and memory.
In the face of such possible dangers, however, the necessary precau-
tions have been taken. The task of protecting the brain has been assumed
by the skull of the required hardness, wholly surrounding the brain. No
other organ in the body has been given its own separate protection in
this way. Thanks to this effective precaution against possible blows, the
brain can perform its vital functions perfectly. There can only be one ex-
planation for the way that the bone cells are aware of the brain’s vital im-
portance to the body, and come together to enfold the brain without in-
flicting pressure on it: intelligent Creation. Any rational person knows
that such a design cannot be the work of blind coincidences.
Our brain’s very delicate system consists of nerve cells that function
with electrical signals, support cells that harbor and feed these nerve
cells, and blood vessels. These vessels filter serum from the blood, filling
the spaces in the brain with that liquid.
From one point of view, the brain is swimming in fluid. Thus the
weight of the brain falls to 50 grams (0.1102 pounds), 1/30 of its own
weight (approximately 1,500 grams, or 3.307 pounds). This fluid in the
brain is in a constant circulation, which also permits the pressure of the
fluid to be controlled. Any rise in pressure means a rise in pressure on
the brain, and thus to possible brain damage. However, the brain, which
has both a very delicate structure and vitally important responsibilities,
is protected by a variety of means within the body.
If the brain were not cushioned by this fluid but instead made di-
rect contact with the skull, it would be crushed under its own weight,
pressure would rise to very high levels and severely affect its function-
ing. Indeed, death could even result when pressure forms in one of the
brain’s vital centers. Yet with the exception of incidences of sickness, we
188
never encounter such a problem. In the condition known as hydroceph-
alus, for example, fluid in the brain starts to accumulate as a result of a
circulatory defect, and the resulting pressure impacts on brain function.
Unless this fluid is drained off through surgery, the increasing pressure
results in mental retardation, problems of coordination, blindness, or
even death. Conversely, when the pressure of the fluid in the brain falls
to below-normal levels, this causes intense headaches, and the brain
189
Adnan Oktar
Millions of signals arrive at the brain at every moment, carrying an enormous load
of information, about what is happening inside and outside the body: about cramp
in your toes, or the smell of coffee or a familiar face. As other signals arrive and da-
ta are analyzed, they establish feeling, memories or thoughts, or plans by which
decisions are taken. Signals leaving the brain, on the other hand, tell the various
regions of the body what needs to be done: wriggle your toes, drink some coffee,
greet a friend. It is highly superficial to say that these commands are directives is-
sued by a moist, grayish organ weighing just one kilogram, made up of uncon-
scious cells, themselves consisting of combinations of unconscious atoms. There
must be some other explanation apart from unconscious components coming to-
gether within a specific design and undertaking conscious tasks. The conscious-
ness here is that of our Lord, and every cell performs the responsibilities imposed
on it through His inspiration.
THE MIRACLE OF ELECTRICITY IN THE BODY
again starts to suffer damage.
Another example of this protection is the system that meets the
brain’s requirements for blood. Since the brain controls all the processes
in the body, it therefore requires a steady supply of blood. Its blood flow
must be maintained at no matter what cost, and this vital need is met
with an extraordinary supervision. Even if the blood supply to all other
organs is cut off as a result of hemorrhaging, various nerves go into op-
eration to transmit blood to the brain, and the diameters of the blood
vessels are adjusted accordingly. Blood vessels leading to a number of
organs are temporarily shut down, and the blood flow is redirected to
those arteries leading to the brain.
Faced with these miraculous facts, evolutionists cannot offer any
consistent explanation for their claims that the brain developed gradual-
ly. They therefore expand on their fairy tale-like explanations, uttering
hints that the brain needed to be protected and that coincidence re-
sponded to that need. It’s of course impossible for unconscious coinci-
dences to determine any such need and to give rise to such an extraordi-
nary solution as a protective skull. Evolutionists who maintain that the
skull emerged by chance for protective purposes also need to explain
how it was protected until such time as the skull came into being. It is
out of question for a brain without a skull to survive or to fulfill its many
functions.
Assume that the opposite was actually the case: that according to
the evolutionary scenario, first the skull formed and then a brain formed
by chance inside it. As we know, evolution maintains that everything is
determined by needs, and that these needs are met by chance. It is im-
possible for an organ or system with no function to come into being.
That being so, chance must have seen into the future and anticipated the
brain’s delicate nature and the protective skull must therefore have come
into being at the same time. No logical person could ever believe such a
thing.
No matter how impossible it might be, according to evolutionists’
imaginary scenarios, the brain developed in stages. One would therefore
190
expect the skull to develop in accord with those stages. Yet all the fossil
skulls in the world exhibit their most fully advanced states. No partly
formed or semi-developed skull has ever been excavated.
In order for evolutionist hypotheses to be valid, we must assume
that coincidences could think, take precautions and plan ahead, and that
they constitute a superior power in their own right. Despite having come
into being at random, evolutionists’ coincidences must be literally con-
scious, and everything they do is planned. These coincidences can think
of details even beyond the abilities of human beings, and act with fore-
sight. Moreover, the coincidences in evolutionists’ dreams generally nev-
er make mistakes.
The world’s most eminent scientists and technicians cannot invent
a device with working capabilities anywhere approaching those of the
brain, even with all the 21st-century technology at their disposal. But ev-
olutionists’ coincidences managed to build a communication network
among billions of cells. It’s of course impossible to attach any credence
to that claim.
Yet we are still being told tall tales about coincidences acting in a
conscious manner, even though the invalidity of the theory of evolution
has been demonstrated many times. Those who spin these yarns look
completely ridiculous. It is impossible for the detailed creation of the
brain to have arisen by chance. It is Allah, the Creator of all things, Who
created these delicate balances within a flawless order.
We are reminded of this in the verses of the Qur’an:
O man! What has deluded you in respect of your Noble Lord? He
Who created you and formed you and proportioned you and assem-
bled you in whatever way He willed. (Surat al-Infitar: 6-8)
Harun Yahya 191
Adnan Oktar
here is a purpose behind the creation of everything
on Earth. Allah reveals this in the Qur’an:
Did you suppose that We created you for amusement and
that you would not return to Us? (Surat al-Muminun: 113)
We did not create the heavens and Earth and everything be-
tween them, except with truth . . . . (Surat al-Hijr: 85)
There is also a purpose behind every detail in human creation.
Our eyes, ears, noses, all our cells, the ion channels in our cells, the
nucleic acid sequences in our DNA, the connections in our nervous
network, the spaces between the neurons, the fatty sheath that sur-
rounds the nerves, the enzymes that accelerate activities and count-
less other details—all have been created to serve a specific
purpose.
Our Lord surrounds and enfolds
us everywhere, as is clearly revealed in
verses of the Qur’an:
. . . We are nearer to him than his
jugular vein. (Surah Qaf: 16)
Both East and West belong to
Allah, so wherever you
turn, the Face of Allah is
there. Allah is All-
Encompassing, All-
Knowing. (Surat al-
Baqara: 115)
The details and in-
comparable creations con-
sidered throughout the
course of this book are just
some of the signs of the ex-
istence of our Lord and of
His dominion over His cre-
ation. Everyone can inter-
pret these signs to the extent
of his or her conscience and
intellect.
Confronted with all these
details, some people are unable
to understand the wisdom in
Allah’s creation, even though
they may have studied it close up,
researched it and written books
about it. These people are referred to
in the following terms in the Qur’an:
They do not measure Allah with His
true measure. Allah is All-Strong,
Almighty. (Surat al-Hajj: 74)
193Harun Yahya
Adnan Oktar
THE MIRACLE OF ELECTRICITY IN THE BODY
The exemplary behavior of the faithful is revealed thus:
. . . Those who remember Allah, standing, sitting and lying on their
sides, and reflect on the creation of the heavens and the Earth: “Our
Lord, You have not created this for nothing. Glory be to You! So safe-
guard us from the punishment of the Fire.” (Surah Al ‘Imran: 191)
The knowledge, artistry and superior intellect of Allah that we en-
counter in every square millimeter of the human body contain very im-
portant messages. The importance of evaluating this information is re-
vealed in the words: . . . Only those of His slaves with knowledge have
fear of Allah . . . (Surah Fatir: 28) It is utterly meaningless to think that
human beings have no purpose when there is such a detailed and pur-
poseful creation all around us, including our own bodies. Of course
there is a reason for people’s presence in this world. Every second we
live and breathe and all these countless details have been bestowed up-
on us as a blessing. Since such beauty and delicacy have been brought
into being, then they must have significance for us. These messages re-
mind us to appreciate Allah as we ought, come to know the Lord Who
created us, see His mercy on us, and to fulfill our duties as His servants
by rendering Him due thanks.
Has man ever known a point of time when he was not something re-
membered? We created man from a mingled drop to test him, and We
made him hearing and seeing. We guided him on the Way, whether
he is thankful or unthankful. (Surat al-Insan: 1-3)
194
195
arwinism, in other words the theory of evolution,
was put forward with the aim of denying the fact of
creation, but is in truth nothing but failed, unscientific
nonsense. This theory, which claims that life emerged by chance
from inanimate matter, was invalidated by the scientific evi-
dence of miraculous order in the universe and in living things.
In this way, science confirmed the fact that Allah created the uni-
verse and the living things in it. The propaganda carried out to-
day in order to keep the theory of evolution alive is based sole-
ly on the distortion of the scientific facts, biased interpretation,
and lies and falsehoods disguised as science.
Yet this propaganda cannot conceal the truth. The fact that
the theory of evolution is the greatest deception in the history of
science has been expressed more and more in the scientific
world over the last 20-30 years. Research
carried out after the 1980s in par-
196
ticular has revealed that the claims of Darwinism are totally unfounded,
something that has been stated by a large number of scientists. In the
United States in particular, many scientists from such different fields as
biology, biochemistry and paleontology recognize the invalidity of
Darwinism and employ the fact of creation to account for the origin of
life.
We have examined the collapse of the theory of evolution and the
proofs of creation in great scientific detail in many of our works, and are
still continuing to do so. Given the enormous importance of this subject,
it will be of great benefit to summarize it here.
The Scientific Collapse of DarwinismAlthough this doctrine goes back as far as ancient Greece, the theo-
ry of evolution was advanced extensively in the nineteenth century. The
most important development that made it the top topic of the world of
science was Charles Darwin's The Origin of Species, published in 1859. In
this book, he denied that Allah created different living species on Earth
separately, for he claimed that
all living beings had a common
ancestor and had diversified
over time through small
changes. Darwin's theory was
not based on any concrete sci-
entific finding; as he also ac-
cepted, it was just an "assump-
tion." Moreover, as Darwin con-
fessed in the long chapter of his
book titled "Difficulties on
Theory," the theory failed in the
face of many critical questions.
Darwin invested all of his
hopes in new scientific discov-
eries, which he expected to
Harun Yahya 197
Adnan Oktar
Charles Darwin
THE MIRACLE OF ELECTRICITY IN THE BODY
solve these difficulties. However, contrary to his expectations, scientific
findings expanded the dimensions of these difficulties. The defeat of
Darwinism in the face of science can be reviewed under three basic top-
ics:
1) The theory cannot explain how life originated on Earth.
2) No scientific finding shows that the "evolutionary mechanisms"
proposed by the theory have any evolutionary power at all.
3) The fossil record proves the exact opposite of what the theory
suggests.
In this section, we will examine these three basic points in general
outlines:
The First Insurmountable Step: The Origin of LifeThe theory of evolution posits that all living species evolved from a
single living cell that emerged on the primitive Earth 3.8 billion years
ago. How a single cell could generate millions of complex living species
and, if such an evolution really occurred, why traces of it cannot be ob-
served in the fossil record are some of the questions that the theory can-
not answer. However, first and foremost, we need to ask: How did this
"first cell" originate?
Since the theory of evolution denies creation and any kind of su-
pernatural intervention, it maintains that the "first cell" originated coin-
cidentally within the laws of nature, without any design, plan or
arrangement. According to the theory, inanimate matter must have pro-
duced a living cell as a result of coincidences. Such a claim, however, is
inconsistent with the most unassailable rules of biology.
Life Comes From LifeIn his book, Darwin never referred to the origin of life. The primi-
tive understanding of science in his time rested on the assumption that
living beings had a very simple structure. Since medieval times, sponta-
neous generation, which asserts that non-living materials came together
198
to form living organisms, had been widely accepted. It was commonly
believed that insects came into being from food leftovers, and mice from
wheat. Interesting experiments were conducted to prove this theory.
Some wheat was placed on a dirty piece of cloth, and it was believed that
mice would originate from it after a while.
Similarly, maggots developing in rotting meat was assumed to be
evidence of spontaneous generation. However, it was later understood
that worms did not appear on meat spontaneously, but were carried
there by flies in the form of larvae, invisible to the naked eye.
Even when Darwin wrote The Origin of Species, the belief that bacte-
ria could come into existence from non-living matter was widely accept-
ed in the world of science.
However, five years after the publication of
Darwin's book, Louis Pasteur announced his
results after long studies and experiments,
that disproved spontaneous generation, a
cornerstone of Darwin's theory. In his
triumphal lecture at the Sorbonne in
1864, Pasteur said: "Never will the doc-
trine of spontaneous generation recov-
er from the mortal blow struck by this
simple experiment."93
For a long time, advocates of the
theory of evolution resisted these findings.
However, as the development of science un-
raveled the complex structure of the cell of a living
being, the idea that life could come into being coincidentally faced an
even greater impasse.
Inconclusive Efforts of the Twentieth CenturyThe first evolutionist who took up the subject of the origin of life in
the twentieth century was the renowned Russian biologist Alexander
Oparin. With various theses he advanced in the 1930s, he tried to prove
Harun Yahya 199
Adnan Oktar
Louis Pasteur
THE MIRACLE OF ELECTRICITY IN THE BODY
that a living cell could originate by coincidence. These studies, however,
were doomed to failure, and Oparin had to make the following confession:
Unfortunately, however, the problem of the origin of the cell is perhaps the
most obscure point in the whole study of the evolution of organisms.94
Evolutionist followers of Oparin tried to carry out experiments to
solve this problem. The best known experiment was carried out by the
American chemist Stanley Miller in 1953. Combining the gases he al-
leged to have existed in the primordial Earth's atmosphere in an experi-
ment set-up, and adding energy to the mixture, Miller synthesized sev-
eral organic molecules (amino acids) present in the structure of proteins.
Barely a few years had passed before it was revealed that this ex-
periment, which was then presented as an important step in the name of
evolution, was invalid, for the atmosphere used in the experiment was
very different from the real Earth conditions.95
After a long silence, Miller confessed that the atmosphere medium
he used was unrealistic.96
All the evolutionists' efforts throughout the twentieth century to ex-
plain the origin of life ended in failure. The geochemist Jeffrey Bada,
from the San Diego Scripps Institute accepts this fact in an article pub-
lished in Earth magazine in 1998:
Today as we leave the twentieth century, we still face the biggest unsolved
problem that we had when we entered the twentieth century: How did life
originate on Earth?97
The Complex Structure of Life The primary reason why the theory of evolution ended up in such
a great impasse regarding the origin of life is that even those living or-
ganisms deemed to be the simplest have incredibly complex structures.
The cell of a living thing is more complex than all of our man-made tech-
nological products. Today, even in the most developed laboratories of
the world, a living cell cannot be produced by bringing organic chemi-
cals together.
The conditions required for the formation of a cell are too great in
200
quantity to be explained away by coincidences. The probability of pro-
teins, the building blocks of a cell, being synthesized coincidentally, is 1
in 10950 for an average protein made up of 500 amino acids. In mathe-
matics, a probability smaller than 1 over 1050 is considered to be impos-
sible in practical terms.
The DNA molecule, which is located in the nucleus of a cell and
which stores genetic information, is an incredible databank. If the infor-
mation coded in DNA were written down, it would make a giant library
consisting of an estimated 900 volumes of encyclopedias consisting of
500 pages each.
A very interesting dilemma emerges at this point: DNA can repli-
cate itself only with the help of some specialized proteins (enzymes).
However, the synthesis of these enzymes can be realized only by the in-
formation coded in DNA. As they both depend on each other, they have
to exist at the same time for replication. This brings the scenario that life
originated by itself to a deadlock. Prof. Leslie Orgel, an evolutionist of
Harun Yahya 201
One of the facts nullifying the
theory of evolution is the in-
credibly complex structure of
life. The DNA molecule locat-
ed in the nucleus of cells of
living beings is an example of
this. The DNA is a sort of
databank formed of the
arrangement of four different
molecules in different se-
quences. This databank con-
tains the codes of all the
physical traits of that living
being. When the human DNA
is put into writing, it is calcu-
lated that this would result in
an encyclopedia made up of
900 volumes. Unquestionably,
such extraordinary informa-
tion definitively refutes the
concept of coincidence.
THE MIRACLE OF ELECTRICITY IN THE BODY
repute from the University of San Diego, California, confesses this fact in
the September 1994 issue of the Scientific American magazine:
It is extremely improbable that proteins and nucleic acids, both of which
are structurally complex, arose spontaneously in the same place at the
same time. Yet it also seems impossible to have one without the other. And
so, at first glance, one might have to conclude that life could never, in fact,
have originated by chemical means.98 No doubt, if it is impossible for
life to have originated from natural causes, then it has to be accept-
ed that life was "created" in a supernatural way. This fact explicitly
invalidates the theory of evolution, whose main purpose is to deny
creation.
Imaginary Mechanism of Evolution The second important point that negates Darwin's theory is that
both concepts put forward by the theory as "evolutionary mechanisms"
were understood to have, in reality, no evolutionary power.
Darwin based his evolution allegation entirely on the mechanism of
"natural selection." The importance he placed on this mechanism was ev-
ident in the name of his book: The Origin of Species, By Means of NaturalSelection…
Natural selection holds that those living things that are stronger
and more suited to the natural conditions of their habitats will survive
in the struggle for life. For example, in a deer herd under the threat of at-
tack by wild animals, those that can run faster will survive. Therefore,
the deer herd will be comprised of faster and stronger individuals.
However, unquestionably, this mechanism will not cause deer to evolve
and transform themselves into another living species, for instance, hors-
es.
Therefore, the mechanism of natural selection has no evolutionary
power. Darwin was also aware of this fact and had to state this in his
book The Origin of Species:
Natural selection can do nothing until favourable individual differences or
variations occur.99
202
Lamarck’s ImpactSo, how could these "favorable variations" occur? Darwin tried to
answer this question from the standpoint of the primitive understanding
of science at that time. According to the French biologist Chevalier de
Lamarck (1744-1829), who lived before Darwin, living creatures passed
on the traits they acquired during their lifetime to the next generation.
He asserted that these traits, which accumulated from one generation to
another, caused new species to be formed. For instance, he claimed that
giraffes evolved from antelopes; as they struggled to eat the leaves of
high trees, their necks were extended from generation to generation.
Darwin also gave similar examples. In his book The Origin of Species,
for instance, he said that some bears going into water to find food trans-
formed themselves into whales over time.100
However, the laws of inheritance discovered by Gregor Mendel
(1822-84) and verified by the science of genetics, which flourished in the
twentieth century, utterly demolished the legend that acquired traits
Harun Yahya 203
Lamarck believed that giraffes evolved from
such animals as antelopes. In his view, the
necks of these grass-eating animals gradually
grew longer, and they eventual-
ly turned into giraffes. The
laws of inheritance dis-
covered by Mendel in
1865 proved that it was
impossible for proper-
ties acquired during life
to be handed on to sub-
sequent generations.
Lamarck’s giraffe fairy
tale was thus con-
signed to the waste-
bin of history.
THE MIRACLE OF ELECTRICITY IN THE BODY
were passed on to subsequent generations. Thus, natural selection fell
out of favor as an evolutionary mechanism.
Neo-Darwinism and MutationsIn order to find a solution, Darwinists advanced the "Modern
Synthetic Theory," or as it is more commonly known, Neo-Darwinism, at
the end of the 1930s. Neo-Darwinism added mutations, which are dis-
tortions formed in the genes of living beings due to such external factors
as radiation or replication errors, as the "cause of favorable variations" in
addition to natural mutation.
Today, the model that stands for evolution in the world is Neo-
Darwinism. The theory maintains that millions of living beings formed
as a result of a process whereby numerous complex organs of these or-
ganisms (e.g., ears, eyes, lungs, and wings) underwent "mutations," that
is, genetic disorders. Yet, there is an outright scientific fact that totally
undermines this theory: Mutations do not cause living beings to devel-
op; on the contrary, they are always harmful.
The reason for this is very simple: DNA has a very complex struc-
ture, and random effects can only harm it. The American geneticist B. G.
Ranganathan explains this as follows:
First, genuine mutations are very rare in nature. Secondly, most mutations
are harmful since they are random, rather than orderly changes in the
structure of genes; any random change in a highly ordered system will be
for the worse, not for the better. For example, if an earthquake were to
shake a highly ordered structure such as a building, there would be a ran-
dom change in the framework of the building which, in all probability,
would not be an improvement.101
Not surprisingly, no mutation example, which is useful, that is,
which is observed to develop the genetic code, has been observed so far.
All mutations have proved to be harmful. It was understood that muta-
tion, which is presented as an "evolutionary mechanism," is actually a
genetic occurrence that harms living things, and leaves them disabled.
(The most common effect of mutation on human beings is cancer.) Of
204
course, a destructive mechanism cannot be an "evolutionary mecha-
nism." Natural selection, on the other hand, "can do nothing by itself," as
Darwin also accepted. This fact shows us that there is no "evolutionary
mechanism" in nature. Since no evolutionary mechanism exists, no such
any imaginary process called "evolution" could have taken place.
The Fossil Record: No Sign of Intermediate FormsThe clearest evidence that the scenario suggested by the theory of
evolution did not take place is the fossil record.
According to this theory, every living species has sprung from a
predecessor. A previously existing species turned into something else
over time and all species have come into being in this way. In other
Harun Yahya 205
Adnan Oktar
Accidental mutations develop into defects in humans as well as other living be-
ings. The Chernobyl disaster is an eye-opener for the effects of mutations.
THE MIRACLE OF ELECTRICITY IN THE BODY
words, this transformation proceeds gradually over millions of years.
Had this been the case, numerous intermediary species should have
existed and lived within this long transformation period.
For instance, some half-fish/half-reptiles should have lived in the
past which had acquired some reptilian traits in addition to the fish traits
they already had. Or there should have existed some reptile-birds, which
acquired some bird traits in addition to the reptilian traits they already
had. Since these would be in a transitional phase, they should be dis-
abled, defective, crippled living beings. Evolutionists refer to these
imaginary creatures, which they believe to have lived in the past, as
"transitional forms."
If such animals ever really existed, there should be millions and
even billions of them in number and variety. More importantly, the re-
mains of these strange creatures should be present in the fossil record. In
The Origin of Species, Darwin explained:
If my theory be true, numberless intermediate varieties, linking most close-
ly all of the species of the same group together must assuredly have exist-
ed... Consequently, evidence of their former existence could be found only
amongst fossil remains.102
206
A frog fossil, millions of
years old, is no different
from the frogs in our day.
Darwin’s Hopes ShatteredHowever, although evolutionists have been making strenuous ef-
forts to find fossils since the middle of the nineteenth century all over the
world, no transitional forms have yet been uncovered. All of the fossils,
contrary to the evolutionists' expectations, show that life appeared on
Earth all of a sudden and fully-formed.
One famous British paleontologist, Derek V. Ager, admits this fact,
even though he is an evolutionist:
The point emerges that if we examine the fossil record in detail, whether at
the level of orders or of species, we find – over and over again – not grad-
ual evolution, but the sudden explosion of one group at the expense of an-
other.103
This means that in the fossil record, all living species suddenly
emerge as fully formed, without any intermediate forms in between.
This is just the opposite of Darwin's assumptions. Also, this is very
strong evidence that all living things are created. The only explanation
of a living species emerging suddenly and complete in every detail with-
out any evolutionary ancestor is that it was created. This fact is admitted
also by the widely known evolutionist biologist Douglas Futuyma:
Creation and evolution, between them, exhaust the possible explanations
for the origin of living things. Organisms either appeared on the earth ful-
ly developed or they did not. If they did not, they must have developed
from pre-existing species by some process of modification. If they did ap-
pear in a fully developed state, they must indeed have been created by
some omnipotent intelligence.104
Fossils show that living beings emerged fully developed and in a
perfect state on the Earth. That means that "the origin of species," con-
trary to Darwin's supposition, is not evolution, but creation.
The Tale of Human EvolutionThe subject most often brought up by advocates of the theory of
evolution is the subject of the origin of man. The Darwinist claim holds
Harun Yahya 207
Adnan Oktar
THE MIRACLE OF ELECTRICITY IN THE BODY
that modern man evolved from ape-like creatures. During this alleged
evolutionary process, which is supposed to have started 4-5 million
years ago, some "transitional forms" between modern man and his an-
cestors are supposed to have existed. According to this completely imag-
inary scenario, four basic "categories" are listed:
1. Australopithecus 2. Homo habilis3. Homo erectus4. Homo sapiensEvolutionists call man's so-called first ape-like ancestors
Australopithecus, which means "South African ape." These living beings
are actually nothing but an old ape species that has become extinct.
Extensive research done on various Australopithecus specimens by two
world famous anatomists from England and the USA, namely, Lord
Solly Zuckerman and Prof. Charles Oxnard, shows that these apes be-
longed to an ordinary ape species that became extinct and bore no re-
semblance to humans.105
Evolutionists classify the next stage of human evolution as "homo,"
that is "man." According to their claim, the living beings in the Homo se-
ries are more developed than Australopithecus. Evolutionists devise a
fanciful evolution scheme by arranging different fossils of these crea-
tures in a particular order. This scheme is imaginary because it has nev-
er been proved that there is an evolutionary relation between these dif-
ferent classes. Ernst Mayr, one of the twentieth century's most important
evolutionists, contends in his book One Long Argument that "particularly
historical [puzzles] such as the origin of life or of Homo sapiens, are ex-
tremely difficult and may even resist a final, satisfying explanation."106
By outlining the link chain as Australopithecus > Homo habilis >Homo erectus > Homo sapiens, evolutionists imply that each of these
species is one another's ancestor. However, recent findings of paleoan-
thropologists have revealed that Australopithecus, Homo habilis, and Homoerectus lived at different parts of the world at the same time.107
Moreover, a certain segment of humans classified as Homo erectus
208
have lived up until very modern times. Homo sapiens neandarthalensis and
Homo sapiens sapiens (modern man) co-existed in the same region.188
This situation apparently indicates the invalidity of the claim that
they are ancestors of one another. Stephen Jay Gould explained this
deadlock of the theory of evolution, although he was himself one of the
leading advocates of evolution in the twentieth century:
What has become of our ladder if there are three coexisting lineages of ho-
minids (A. africanus, the robust australopithecines, and H. habilis), none
clearly derived from another? Moreover, none of the three display any evo-
lutionary trends during their tenure on earth.109
Put briefly, the scenario of human evolution, which is "upheld" with
the help of various drawings of some "half ape, half human" creatures
appearing in the media and course books, that is, frankly, by means of
propaganda, is nothing but a tale with no scientific foundation.
Lord Solly Zuckerman, one of the most famous and respected sci-
entists in the U.K., who carried out research on this subject for years and
studied Australopithecus fossils for 15 years, finally concluded, despite
being an evolutionist himself, that there is, in fact, no such family tree
branching out from ape-like creatures to man.
Zuckerman also made an interesting "spectrum of science" ranging
from those he considered scientific to those he considered unscientific.
According to Zuckerman's spectrum, the most "scientific" – that is, de-
pending on concrete data – fields of science are chemistry and physics.
After them come the biological sciences and then the social sciences. At
the far end of the spectrum, which is the part considered to be most "un-
scientific," are "extra-sensory perception" – concepts such as telepathy
and sixth sense – and finally "human evolution." Zuckerman explains his
reasoning:
We then move right off the register of objective truth into those fields of
presumed biological science, like extrasensory perception or the interpre-
tation of man's fossil history, where to the faithful [evolutionist] anything
is possible – and where the ardent believer [in evolution] is sometimes able
to believe several contradictory things at the same time.110
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THE MIRACLE OF ELECTRICITY IN THE BODY
The tale of human evolution boils down to nothing but the prejudiced in-
terpretations of some fossils unearthed by certain people, who blindly ad-
here to their theory.
Darwinian Formula!Besides all the technical evidence we have dealt with so far, let us
now for once, examine what kind of a superstition the evolutionists have
with an example so simple as to be understood even by children:
The theory of evolution asserts that life is formed by chance.
According to this claim, lifeless and unconscious atoms came together to
form the cell and then they somehow formed other living things, in-
cluding man. Let us think about that. When we bring together the ele-
ments that are the building-blocks of life such as carbon, phosphorus, ni-
trogen and potassium, only a heap is formed. No matter what treatments
it undergoes, this atomic heap cannot form even a single living being. If
you like, let us formulate an "experiment" on this subject and let us ex-
amine on the behalf of evolutionists what they really claim without pro-
nouncing loudly under the name "Darwinian formula":
Let evolutionists put plenty of materials present in the composition
of living things such as phosphorus, nitrogen, carbon, oxygen, iron, and
magnesium into big barrels. Moreover, let them add in these barrels any
material that does not exist under normal conditions, but they think as
necessary. Let them add in this mixture as many amino acids and as
many proteins – a single one of which has a formation probability of 10-
950 – as they like. Let them expose these mixtures to as much heat and
moisture as they like. Let them stir these with whatever technologically
developed device they like. Let them put the foremost scientists beside
these barrels. Let these experts wait in turn beside these barrels for bil-
lions, and even trillions of years. Let them be free to use all kinds of con-
ditions they believe to be necessary for a human's formation. No matter
what they do, they cannot produce from these barrels a human, say a
professor that examines his cell structure under the electron microscope.
They cannot produce giraffes, lions, bees, canaries, horses, dolphins, ros-
210
es, orchids, lilies, carnations, bananas, oranges, apples, dates, tomatoes,
melons, watermelons, figs, olives, grapes, peaches, peafowls, pheasants,
multicoloured butterflies, or millions of other living beings such as
these. Indeed, they could not obtain even a single cell of any one of them.
Briefly, unconscious atoms cannot form the cell by coming together.
They cannot take a new decision and divide this cell into two, then take
other decisions and create the professors who first invent the electron
microscope and then examine their own cell structure under that micro-
scope. Matter is an unconscious, lifeless heap, and it comes to life with
Allah's superior creation.
The theory of evolution, which claims the opposite, is a total fallacy
completely contrary to reason. Thinking even a little bit on the claims of
evolutionists discloses this reality, just as in the above example.
Technology in the Eye and the EarAnother subject that remains unanswered by evolutionary theory is
the excellent quality of perception in the eye and the ear.
Before passing on to the subject of the eye, let us briefly answer the
question of how we see. Light rays coming from an object fall opposite-
ly on the eye's retina. Here, these light rays are transmitted into electric
signals by cells and reach a tiny spot at the back of the brain, the "center
of vision." These electric signals are perceived in this center as an image
after a series of processes. With this technical background, let us do some
thinking.
The brain is insulated from light. That means that its inside is com-
pletely dark, and that no light reaches the place where it is located. Thus,
the "center of vision" is never touched by light and may even be the
darkest place you have ever known. However, you observe a luminous,
bright world in this pitch darkness.
The image formed in the eye is so sharp and distinct that even the
technology of the twentieth century has not been able to attain it. For in-
stance, look at the book you are reading, your hands with which you are
holding it, and then lift your head and look around you. Have you ever
Harun Yahya 211
Adnan Oktar
seen such a sharp and distinct image as this one at any other place? Even
the most developed television screen produced by the greatest television
producer in the world cannot provide such a sharp image for you. This
is a three-dimensional, colored, and extremely sharp image. For more
than 100 years, thousands of engineers have been trying to achieve this
sharpness. Factories, huge premises were established, much research has
been done, plans and designs have been made for this purpose. Again,
look at a TV screen and the book you hold in your hands. You will see
that there is a big difference in sharpness and distinction. Moreover, the
TV screen shows you a two-dimensional image, whereas with your eyes,
you watch a three-dimensional perspective with depth.
For many years, tens of thousands of engineers have tried to make
a three-dimensional TV and achieve the vision quality of the eye. Yes,
they have made a three-dimensional television system, but it is not pos-
sible to watch it without putting on special 3-D glasses; moreover, it is
only an artificial three-dimension. The background is more blurred, the
foreground appears like a paper setting. Never has it been possible to
produce a sharp and distinct vision like that of the eye. In both the cam-
212
era and the television, there is a loss of image quality.
Evolutionists claim that the mechanism producing this sharp and
distinct image has been formed by chance. Now, if somebody told you
that the television in your room was formed as a result of chance, that all
of its atoms just happened to come together and make up this device that
produces an image, what would you think? How can atoms do what
thousands of people cannot?
If a device producing a more primitive image than the eye could not
have been formed by chance, then it is very evident that the eye and the
image seen by the eye could not have been formed by chance. The same
situation applies to the ear. The outer ear picks up the available sounds
by the auricle and directs them to the middle ear, the middle ear trans-
mits the sound vibrations by intensifying them, and the inner ear sends
these vibrations to the brain by translating them into electric signals. Just
as with the eye, the act of hearing finalizes in the center of hearing in the
brain.
The situation in the eye is also true for the ear. That is, the brain is
insulated from sound just as it is from light. It does not let any sound in.
Therefore, no matter how noisy is the outside, the inside of the brain is
completely silent. Nevertheless, the sharpest sounds are perceived in the
brain. In your completely silent brain, you listen to symphonies, and
hear all of the noises in a crowded place. However, were the sound lev-
el in your brain measured by a precise device at that moment, complete
silence would be found to be prevailing there.
As is the case with imagery, decades of effort have been spent in try-
ing to generate and reproduce sound that is faithful to the original. The
results of these efforts are sound recorders, high-fidelity systems, and
systems for sensing sound. Despite all of this technology and the thou-
sands of engineers and experts who have been working on this endeav-
or, no sound has yet been obtained that has the same sharpness and clar-
ity as the sound perceived by the ear. Think of the highest-quality hi-fi
systems produced by the largest company in the music industry. Even in
these devices, when sound is recorded some of it is lost; or when you
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THE MIRACLE OF ELECTRICITY IN THE BODY
turn on a hi-fi you always hear a hissing sound before the music starts.
However, the sounds that are the products of the human body's tech-
nology are extremely sharp and clear. A human ear never perceives a
sound accompanied by a hissing sound or with atmospherics as does a
hi-fi; rather, it perceives sound exactly as it is, sharp and clear. This is the
way it has been since the creation of man.
So far, no man-made visual or recording apparatus has been as sen-
sitive and successful in perceiving sensory data as are the eye and the
ear. However, as far as seeing and hearing are concerned, a far greater
truth lies beyond all this.
To Whom Does the Consciousness that Sees
andHears within the Brain Belong? Who watches an alluring world in the brain, listens to symphonies
and the twittering of birds, and smells the rose?
The stimulations coming from a person's eyes, ears, and nose trav-
el to the brain as electro-chemical nerve impulses. In biology, physiolo-
gy, and biochemistry books, you can find many details about how this
image forms in the brain. However, you will never come across the most
important fact: Who perceives these electro-chemical nerve impulses as
images, sounds, odors, and sensory events in the brain? There is a con-
sciousness in the brain that perceives all this without feeling any need
for an eye, an ear, and a nose. To whom does this consciousness belong?
Of course it does not belong to the nerves, the fat layer, and neurons
comprising the brain. This is why Darwinist-materialists, who believe
that everything is comprised of matter, cannot answer these questions.
For this consciousness is the spirit created by Allah, which needs
neither the eye to watch the images nor the ear to hear the sounds.
Furthermore, it does not need the brain to think.
Everyone who reads this explicit and scientific fact should ponder
on Almighty Allah, and fear and seek refuge in Him, for He squeezes the
entire universe in a pitch-dark place of a few cubic centimeters in a three-
dimensional, colored, shadowy, and luminous form.
214
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THE MIRACLE OF ELECTRICITY IN THE BODY
A Materialist FaithThe information we have presented so far shows us that the theory
of evolution is incompatible with scientific findings. The theory's claim
regarding the origin of life is inconsistent with science, the evolutionary
mechanisms it proposes have no evolutionary power, and fossils demon-
strate that the required intermediate forms have never existed. So, it cer-
tainly follows that the theory of evolution should be pushed aside as an
unscientific idea. This is how many ideas, such as the Earth-centered
universe model, have been taken out of the agenda of science through-
out history.
However, the theory of evolution is kept on the agenda of science.
Some people even try to represent criticisms directed against it as an "at-
tack on science." Why?
The reason is that this theory is an indispensable dogmatic belief for
some circles. These circles are blindly devoted to materialist philosophy
and adopt Darwinism because it is the only materialist explanation that
can be put forward to explain the workings of nature.
Interestingly enough, they also confess this fact from time to time.
A well-known geneticist and an outspoken evolutionist, Richard C.
Lewontin from Harvard University, confesses that he is "first and fore-
most a materialist and then a scientist":
It is not that the methods and institutions of science somehow compel us
accept a material explanation of the phenomenal world, but, on the con-
trary, that we are forced by our a priori adherence to material causes to cre-
ate an apparatus of investigation and a set of concepts that produce mate-
rial explanations, no matter how counter-intuitive, no matter how mysti-
fying to the uninitiated. Moreover, that materialism is absolute, so we can-
not allow a Divine [intervention]...111
These are explicit statements that Darwinism is a dogma kept alive
just for the sake of adherence to materialism. This dogma maintains that
there is no being save matter. Therefore, it argues that inanimate, un-
conscious matter created life. It insists that millions of different living
species (e.g., birds, fish, giraffes, tigers, insects, trees, flowers, whales,
216
and human beings) originated as a result of the interactions between
matter such as pouring rain, lightning flashes, and so on, out of inani-
mate matter. This is a precept contrary both to reason and science. Yet
Darwinists continue to defend it just so as "not to allow a Divine inter-
vention."
Anyone who does not look at the origin of living beings with a ma-
terialist prejudice will see this evident truth: All living beings are works
of a Creator, Who is All-Powerful, All-Wise, and All-Knowing. This
Creator is Allah, Who created the whole universe from non-existence,
designed it in the most perfect form, and fashioned all living beings.
The Theory of Evolution:
The Most Potent Spell in the World Anyone free of prejudice and the influence of any particular ideol-
ogy, who uses only his or her reason and logic, will clearly understand
that belief in the theory of evolution, which brings to mind the supersti-
tions of societies with no knowledge of science or civilization, is quite
impossible.
As explained above, those who believe in the theory of evolution
think that a few atoms and molecules thrown into a huge vat could pro-
duce thinking, reasoning professors and university students; such scien-
tists as Einstein and Galileo; such artists as Humphrey Bogart, Frank
Sinatra and Luciano Pavarotti; as well as antelopes, lemon trees, and car-
nations. Moreover, as the scientists and professors who believe in this
nonsense are educated people, it is quite justifiable to speak of this the-
ory as "the most potent spell in history." Never before has any other be-
lief or idea so taken away peoples' powers of reason, refused to allow
them to think intelligently and logically, and hidden the truth from them
as if they had been blindfolded. This is an even worse and unbelievable
blindness than the totem worship in some parts of Africa, the people of
Saba worshipping the Sun, the tribe of Abraham (pbuh) worshipping
idols they had made with their own hands, or the people of Moses
Harun Yahya 217
Adnan Oktar
THE MIRACLE OF ELECTRICITY IN THE BODY
(pbuh) worshipping the Golden Calf.
In fact, Allah has pointed to this lack of reason in the Qur'an. In
many verses, He reveals that some peoples' minds will be closed and that
they will be powerless to see the truth. Some of these verses are as fol-
lows:
As for those who do not believe, it makes no difference to them
whether you warn them or do not warn them, they will not believe.
Allah has sealed up their hearts and hearing and over their eyes is a
blindfold. They will have a terrible punishment. (Surat al-Baqara: 6-7)
… They have hearts with which they do not understand. They have
eyes with which they do not see. They have ears with which they do
not hear. Such people are like cattle. No, they are even further astray!
They are the unaware. (Surat al-A‘raf: 179)
Even if We opened up to them a door into heaven, and they spent the
day ascending through it, they would only say: "Our eyesight is befud-
dled! Or rather we have been put under a spell!" (Surat al-Hijr: 14-15)
Words cannot express just how astonishing it is that this spell should
hold such a wide community in thrall, keep people from the truth, and
not be broken for 150 years. It is understandable that one or a few people
might believe in impossible scenarios and claims full of stupidity and il-
logicality. However, "magic" is the only possible explanation for people
from all over the world believing that unconscious and lifeless atoms
suddenly decided to come together and form a universe that functions
with a flawless system of organization, discipline, reason, and conscious-
ness; a planet named Earth with all of its features so perfectly suited to
life; and living things full of countless complex systems.
In fact, the Qur'an relates the incident of Moses (pbuh) and Pharaoh
to show that some people who support atheistic philosophies actually in-
fluence others by magic. When Pharaoh was told about the true religion,
he told Prophet Moses (pbuh) to meet with his own magicians. When
Moses (pbuh) did so, he told them to demonstrate their abilities first. The
verses continue:
218
He said: "You throw." And when they threw, they cast a spell on the
people's eyes and caused them to feel great fear of them. They pro-
duced an extremely powerful magic. (Surat al-A‘raf: 116)
As we have seen, Pharaoh's magicians were able to deceive every-
one, apart from Moses (pbuh) and those who believed in him. However,
his evidence broke the spell, or "swallowed up what they had forged," as
the verse puts it:
We revealed to Moses: "Throw down your staff." And it immediately
swallowed up what they had forged. So the Truth took place and
what they did was shown to be false. (Surat al-A‘raf: 117-118)
As we can see, when people realized that a spell had been cast up-
on them and that what they saw was just an illusion, Pharaoh's magi-
cians lost all credibility. In the present day too, unless those who, under
the influence of a similar spell, believe in these ridiculous claims under
their scientific disguise and spend their lives defending them, abandon
their superstitious beliefs, they also will be humiliated when the full
truth emerges and the spell is broken. In fact, world-renowned British
writer and philosopher Malcolm Muggeridge, who was an atheist de-
fending evolution for some 60 years, but who subsequently realized the
truth, reveals the position in which the theory of evolution would find
itself in the near future in these terms:
I myself am convinced that the theory of evolution, especially the extent to
which it's been applied, will be one of the great jokes in the history books
in the future. Posterity will marvel that so very flimsy and dubious an hy-
pothesis could be accepted with the incredible credulity that it has.112
That future is not far off: On the contrary, people will soon see that
"chance" is not a deity, and will look back on the theory of evolution as
the worst deceit and the most terrible spell in the world. That spell is al-
ready rapidly beginning to be lifted from the shoulders of people all over
the world. Many people who see its true face are wondering with amaze-
ment how they could ever have been taken in by it.
Harun Yahya 219
Adnan Oktar
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NOTES
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Adnan Oktar
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